This document provides a summary of Nobel Laureates in Physics from 1901 to 2013. It lists each laureate's name, birthplace, years of life, and a brief description of their award-winning work. Some key highlights include Wilhelm Rontgen being awarded the first Nobel Prize in Physics in 1901 for his discovery of X-rays, Albert Einstein winning in 1921 for his work on the photoelectric effect and theory of relativity, and Indian physicist C.V. Raman winning in 1930 for his discovery of the Raman effect. The document continues in chronological order through the 20th century, covering major discoveries such as the neutron, quantum mechanics, and the transistor effect.
Revealing the Agency Cost, Management Behavior in the Practice of Tri Hita Ka...IOSR Journals
The research aims to dig and explain the practice of Tri Hita Karana (THK) cultural values implemented at LPD in relation to the agency costs. Ethnomethodology method is used in the research to understand principle’s and agent’s behavior with respect to THK cultural values. Research result shows that indexicality of THK cultural values such as parahyangan, pawongan and palemahan form reflexivity of agency cost items. The reflexivity of agency cost of parahyangan raises cost of pura development, ceremonial and donation for ceremonies. The reflexivity of agency cost of pawongan raises cost of education, health, ngaben-nyekah and funeral charity. The reflexivity of agency cost of palemahan raises cost of market, village hall, and sport facilities development, and beach arrangement. THK values and agency cost are important aspects to be considered in company management in order to maintain a balance relationship between God, Human and Environment to create harmonization in an organization.
The efficacy of strategic management processes: An empirical study of Nationa...IOSR Journals
The purpose of this study was to appraise the adequacy of strategic management processes of National Sports Associations (NSAs) in Zimbabwe. Most of Zimbabwe NSAs perform poorly as evidenced by the perennial failure of national teams to qualify for major regional and international tournament. Their strategic management processes appear to be inadequate to meet the modern day environmental challenges. The study used the descriptive survey as the design. A sample of fifty three National Sports Association and Provincial Sports Association chairpersons were randomly selected from a population of seventy nine chairpersons. Hand delivered questionnaires with both open ended and closed questions were used to collect data. Results from the study indicate that most NSAs have core values, corporate objectives, policies and make use of physical structures. However the results also show that the majority of NSAs do not have strategic plans, do not practice strategic management and do not conduct strategic reviews. The results led to the conclusion that the strategic management processes in NSAs are inadequate. The study recommended that NSAs should prioritize strategic management and that both the Sports and Recreation Commission and Zimbabwe Olympic Committee should assist NSAs technically and financially to facilitate the adoption of strategic management principles
Javanese Traditional Market Cultural Value in Accounting WorldIOSR Journals
This study explores the accounting values of Javanese traditional market and the potential extinction of those values that now are being marginalized by modern accounting. Modern accounting notions that only focus on economic value have lack meaning to a society whose need not only economic but also non economic value. This study uses grounded theory method to explore the Javanese traditional market values. This study found that tolerance which is consisted of hesitate and trust among traders in Javanese traditional market are the values that can be used in accounting as a concept to challenge the marginalization and domination of modern accounting notions.
On Fuzzy - Semi Open Sets and Fuzzy - Semi Closed Sets in Fuzzy Topologic...IOSR Journals
Abstract: The aim of this paper is to introduce the concept of fuzzy - semi open and fuzzy - semi closed sets of a fuzzy topological space. Some characterizations are discussed, examples are given and properties are established. Also, we define fuzzy - semi interior and fuzzy - semi closure operators. And we introduce fuzzy
- t-set, -SO extremely disconnected space analyse the relations between them.
MSC 2010: 54A40, 03E72.
A survey on context aware system & intelligent Middleware’sIOSR Journals
Abstract: Context aware system or Sentient system is the most profound concept in the ubiquitous computing.
In the cloud system or in distributed computing building a context aware system is difficult task and
programmer should use more generic programming framework. On the basis of layered conceptual design, we
introduce Context aware systems with Context aware middleware’s. On the basis of presented system we will
analyze different approaches of context aware computing. There are many components in the distributed system
and these components should interact with each other because it is the need of many applications. Plenty
Context middleware’s have been made but they are giving partial solutions. In this paper we are giving analysis
of different middleware’s and comprehensive application of it in context caching.
Keywords: Context aware system, Context aware Middleware’s, Context Cache
Feature Extraction of an Image by Using Adaptive Filtering and Morpological S...IOSR Journals
Abstract: For enhancing an image various enhancement schemes are used which includes gray scale manipulation, filtering and Histogram Equalization, Where Histogram equalization is one of the well known image enhancement technique. It became a popular technique for contrast enhancement because it is simple and effective. The basic idea of Histogram Equalization method is to remap the gray levels of an image. Here using morphological segmentation we can get the segmented image. Morphological reconstruction is used to segment the image. Comparative analysis of different enhancement and segmentation will be carried out. This comparison will be done on the basis of subjective and objective parameters. Subjective parameter is visual quality and objective parameters are Area, Perimeter, Min and Max intensity, Avg Voxel Intensity, Std Dev of Intensity, Eccentricity, Coefficient of skewness, Coefficient of Kurtosis, Median intensity, Mode intensity. Keywords: Histogram Equalization, Segmentation, Morphological Reconstruction .
Effects of Variable Fluid Properties and MHD on Mixed Convection Heat Transfe...IOSR Journals
The effects of variable Fluid Properties like variation of permeability, porosity, thermal conductivity and magnetic field on Mixed Convection Heat transfer from Vertical Heated Plate Embedded in a Sparsely Packed Porous Medium have been approached numerically. The boundary layer flow in the porous medium is governed by Lapwood – Forchheimer – Brinkman extended Darcy model and the Lorentz force. The natures of these equations are highly non-linear and coupled each other. The non-linear differential equations are non-dimensionalised using the non-dimensional parameter involving Grashoff number Gr, Prandtl number Pr, Hartmann number M, Eckert number E and so on. Similarity transformations are employed and the resulting ordinary differential equations are solved numerically by using shooting algorithm with Runge – Kutta and Newton – Raphson method to obtain velocity and temperature distributions. Besides, skin friction and Nusselt number are also computed for various physical parameters governing the problem under consideration. It is found that the inertial parameter has a significant influence in decreasing the flow field, whereas its influence is reversed on the rate of heat transfer for all values of permeability considered. The effect of Magnetic field is diminution with velocity of the fluid flow. Further, the obtained results under the two limiting conditions were found to be in good agreement with the existing results
On Spaces of Entire Functions Having Slow Growth Represented By Dirichlet SeriesIOSR Journals
In this paper spaces of entire function represented by Dirichlet Series have been considered. A
norm has been introduced and a metric has been defined. Properties of this space and a characterization of
continuous linear functionals have been established.
Descriptive New features of high angular momentum rotational states in some r...IOSR Journals
The results from the variable moment of inertia (VMI) and cubic polynomial (CP) models with the available experimental information on transition energies for the yrast band levels in all studied nuclei. These models has been generalized so as to be applicable to transitional and vibrational nuclei by requiring that the extended models reduce at low angular momentum, to the polynomial dependence which gives excellent fits to the experimental spectra in the spherical, transitional and deformed regions. The level structure indicate a transition from collective to few-particle characteristics at high spin, possibly suggesting a change shape from prolate through triaxial to oblate. The loss of collectivity occurs at much lower angular momentum than predicted by calculations. The calculated Qt-value of the yrast band of the nucleus with N = 90.
Climatological Effects of Total Solar Radiation in Awka, NigeriaIOSR Journals
Harmattan, humidity and temperature are amongst some climatological variables that affect solar radiations. In this paper we evaluated the effects of these climatological variables on solar radiation in Awka, Anambra State, Nigeria. The city Awka has the latitude of 6.06oN and longitude of 7.0oE. We took various readings of temperature and humidity from December, 2012 to July 2013 and we observed as expected that solar radiation increased with increase in temperature, while increase in humidity greatly reduces solar energy. The harmattan effect on solar radiation showed less fluctuations in the value of solar radiation during any particular day. The basic problem during this period is dust, which uniformly reduces the solar radiation during any particular day. Observations during the period of measurement showed that the fluctuations during harmattan and high temperature were essentially due to dust which was responsible for the high diffuse nature and attenuation on the solar radiation. The regression co-efficient for the periods under study in the city were determined for use in predicting solar radiation.
Performance Analysis of Rake Receivers in IR–UWB SystemIOSR Journals
ABSTRACT : Suppression of interference in time domain equalizers is attempted for high data rate impulse radio (IR) ultra wideband communication system. The narrow band systems may cause interference with UWB devices as it is having very low transmission power and the large bandwidth. SRAKE receiver improves system performance by equalizing signals from different paths. This enables the use of SRAKE receiver techniques in IR UWB systems A semi analytical approach is used to investigate the BER performance of SRAKE receiver on IEEE 802.15.3a UWB channel models. Study on non-line of sight indoor channel models (both CM3 and CM4) illustrates that bit error rate performance of SRake receiver with NBI performs better than that of Rake receiver without NBI Keywords – Bit error rate, Impulse radio, Non-line of sight, SRAKE receiver, Ultra wideband (UWB)
Design, Analysis and Implementation of Modified Luby Transform CodeIOSR Journals
Abstract : Bit losses in erasure channels like computer networks are of great concern. The existing methods to combat bit losses are either inefficient or time consuming due to the retransmission protocols involved. Through this paper, we propose a Modified Luby Transform (MLT) coding scheme to efficiently transmit data over live computer networks. The MLT code can combat bit losses as well as eliminate the need for retransmission. The usability and reliability of the proposed MLT code is verified by testing it on a live computer network. Keywords : Erasure channel, Fountain Codes, Luby Transform Codes , Wired Networks, Wireless Networks
Modification of Disc Brakes Using Rotating Brake PadsIOSR Journals
Under the topic ‘Modification of Disc Brakes using Rotating Friction Pads’, I have studied different
components of disc brake which includes rotor, calipers, and fixed friction pads.My main aim is to increase the
braking effect by modifying the existing design by using rotating friction pad. This friction pad is made to rotate
in opposite direction as that of rotor, this is done by using a separate assembly of compound gear train. In this
assembly 2 shafts are used, one shaft is connected between tire and gear and second shaft connects gear and
rotating friction pad. Both the gears are meshed with each other. As the wheel rotates in clockwise direction,
the gear attached to it will also rotate. Other gear which is in meshed position with first gear will rotate in anticlockwise
direction. This will help to move friction pad in anti-clockwise direction as that of wheel’s clockwise
motion. Aim for using rotating friction pad is to provide maximum possible friction which results in retardation
of motion, rotating friction pad not only will provide the friction due to contact but will also provide the friction
due to rotation. Calculations regarding speed of gears, and motion of wheel will clearly elaborate the idea, this
slight modification helps in reducing braking time. Important thing in this innovation is that the energy required
to stop the wheel or disc of brakes is transmitted from wheel only
Revealing the Agency Cost, Management Behavior in the Practice of Tri Hita Ka...IOSR Journals
The research aims to dig and explain the practice of Tri Hita Karana (THK) cultural values implemented at LPD in relation to the agency costs. Ethnomethodology method is used in the research to understand principle’s and agent’s behavior with respect to THK cultural values. Research result shows that indexicality of THK cultural values such as parahyangan, pawongan and palemahan form reflexivity of agency cost items. The reflexivity of agency cost of parahyangan raises cost of pura development, ceremonial and donation for ceremonies. The reflexivity of agency cost of pawongan raises cost of education, health, ngaben-nyekah and funeral charity. The reflexivity of agency cost of palemahan raises cost of market, village hall, and sport facilities development, and beach arrangement. THK values and agency cost are important aspects to be considered in company management in order to maintain a balance relationship between God, Human and Environment to create harmonization in an organization.
The efficacy of strategic management processes: An empirical study of Nationa...IOSR Journals
The purpose of this study was to appraise the adequacy of strategic management processes of National Sports Associations (NSAs) in Zimbabwe. Most of Zimbabwe NSAs perform poorly as evidenced by the perennial failure of national teams to qualify for major regional and international tournament. Their strategic management processes appear to be inadequate to meet the modern day environmental challenges. The study used the descriptive survey as the design. A sample of fifty three National Sports Association and Provincial Sports Association chairpersons were randomly selected from a population of seventy nine chairpersons. Hand delivered questionnaires with both open ended and closed questions were used to collect data. Results from the study indicate that most NSAs have core values, corporate objectives, policies and make use of physical structures. However the results also show that the majority of NSAs do not have strategic plans, do not practice strategic management and do not conduct strategic reviews. The results led to the conclusion that the strategic management processes in NSAs are inadequate. The study recommended that NSAs should prioritize strategic management and that both the Sports and Recreation Commission and Zimbabwe Olympic Committee should assist NSAs technically and financially to facilitate the adoption of strategic management principles
Javanese Traditional Market Cultural Value in Accounting WorldIOSR Journals
This study explores the accounting values of Javanese traditional market and the potential extinction of those values that now are being marginalized by modern accounting. Modern accounting notions that only focus on economic value have lack meaning to a society whose need not only economic but also non economic value. This study uses grounded theory method to explore the Javanese traditional market values. This study found that tolerance which is consisted of hesitate and trust among traders in Javanese traditional market are the values that can be used in accounting as a concept to challenge the marginalization and domination of modern accounting notions.
On Fuzzy - Semi Open Sets and Fuzzy - Semi Closed Sets in Fuzzy Topologic...IOSR Journals
Abstract: The aim of this paper is to introduce the concept of fuzzy - semi open and fuzzy - semi closed sets of a fuzzy topological space. Some characterizations are discussed, examples are given and properties are established. Also, we define fuzzy - semi interior and fuzzy - semi closure operators. And we introduce fuzzy
- t-set, -SO extremely disconnected space analyse the relations between them.
MSC 2010: 54A40, 03E72.
A survey on context aware system & intelligent Middleware’sIOSR Journals
Abstract: Context aware system or Sentient system is the most profound concept in the ubiquitous computing.
In the cloud system or in distributed computing building a context aware system is difficult task and
programmer should use more generic programming framework. On the basis of layered conceptual design, we
introduce Context aware systems with Context aware middleware’s. On the basis of presented system we will
analyze different approaches of context aware computing. There are many components in the distributed system
and these components should interact with each other because it is the need of many applications. Plenty
Context middleware’s have been made but they are giving partial solutions. In this paper we are giving analysis
of different middleware’s and comprehensive application of it in context caching.
Keywords: Context aware system, Context aware Middleware’s, Context Cache
Feature Extraction of an Image by Using Adaptive Filtering and Morpological S...IOSR Journals
Abstract: For enhancing an image various enhancement schemes are used which includes gray scale manipulation, filtering and Histogram Equalization, Where Histogram equalization is one of the well known image enhancement technique. It became a popular technique for contrast enhancement because it is simple and effective. The basic idea of Histogram Equalization method is to remap the gray levels of an image. Here using morphological segmentation we can get the segmented image. Morphological reconstruction is used to segment the image. Comparative analysis of different enhancement and segmentation will be carried out. This comparison will be done on the basis of subjective and objective parameters. Subjective parameter is visual quality and objective parameters are Area, Perimeter, Min and Max intensity, Avg Voxel Intensity, Std Dev of Intensity, Eccentricity, Coefficient of skewness, Coefficient of Kurtosis, Median intensity, Mode intensity. Keywords: Histogram Equalization, Segmentation, Morphological Reconstruction .
Effects of Variable Fluid Properties and MHD on Mixed Convection Heat Transfe...IOSR Journals
The effects of variable Fluid Properties like variation of permeability, porosity, thermal conductivity and magnetic field on Mixed Convection Heat transfer from Vertical Heated Plate Embedded in a Sparsely Packed Porous Medium have been approached numerically. The boundary layer flow in the porous medium is governed by Lapwood – Forchheimer – Brinkman extended Darcy model and the Lorentz force. The natures of these equations are highly non-linear and coupled each other. The non-linear differential equations are non-dimensionalised using the non-dimensional parameter involving Grashoff number Gr, Prandtl number Pr, Hartmann number M, Eckert number E and so on. Similarity transformations are employed and the resulting ordinary differential equations are solved numerically by using shooting algorithm with Runge – Kutta and Newton – Raphson method to obtain velocity and temperature distributions. Besides, skin friction and Nusselt number are also computed for various physical parameters governing the problem under consideration. It is found that the inertial parameter has a significant influence in decreasing the flow field, whereas its influence is reversed on the rate of heat transfer for all values of permeability considered. The effect of Magnetic field is diminution with velocity of the fluid flow. Further, the obtained results under the two limiting conditions were found to be in good agreement with the existing results
On Spaces of Entire Functions Having Slow Growth Represented By Dirichlet SeriesIOSR Journals
In this paper spaces of entire function represented by Dirichlet Series have been considered. A
norm has been introduced and a metric has been defined. Properties of this space and a characterization of
continuous linear functionals have been established.
Descriptive New features of high angular momentum rotational states in some r...IOSR Journals
The results from the variable moment of inertia (VMI) and cubic polynomial (CP) models with the available experimental information on transition energies for the yrast band levels in all studied nuclei. These models has been generalized so as to be applicable to transitional and vibrational nuclei by requiring that the extended models reduce at low angular momentum, to the polynomial dependence which gives excellent fits to the experimental spectra in the spherical, transitional and deformed regions. The level structure indicate a transition from collective to few-particle characteristics at high spin, possibly suggesting a change shape from prolate through triaxial to oblate. The loss of collectivity occurs at much lower angular momentum than predicted by calculations. The calculated Qt-value of the yrast band of the nucleus with N = 90.
Climatological Effects of Total Solar Radiation in Awka, NigeriaIOSR Journals
Harmattan, humidity and temperature are amongst some climatological variables that affect solar radiations. In this paper we evaluated the effects of these climatological variables on solar radiation in Awka, Anambra State, Nigeria. The city Awka has the latitude of 6.06oN and longitude of 7.0oE. We took various readings of temperature and humidity from December, 2012 to July 2013 and we observed as expected that solar radiation increased with increase in temperature, while increase in humidity greatly reduces solar energy. The harmattan effect on solar radiation showed less fluctuations in the value of solar radiation during any particular day. The basic problem during this period is dust, which uniformly reduces the solar radiation during any particular day. Observations during the period of measurement showed that the fluctuations during harmattan and high temperature were essentially due to dust which was responsible for the high diffuse nature and attenuation on the solar radiation. The regression co-efficient for the periods under study in the city were determined for use in predicting solar radiation.
Performance Analysis of Rake Receivers in IR–UWB SystemIOSR Journals
ABSTRACT : Suppression of interference in time domain equalizers is attempted for high data rate impulse radio (IR) ultra wideband communication system. The narrow band systems may cause interference with UWB devices as it is having very low transmission power and the large bandwidth. SRAKE receiver improves system performance by equalizing signals from different paths. This enables the use of SRAKE receiver techniques in IR UWB systems A semi analytical approach is used to investigate the BER performance of SRAKE receiver on IEEE 802.15.3a UWB channel models. Study on non-line of sight indoor channel models (both CM3 and CM4) illustrates that bit error rate performance of SRake receiver with NBI performs better than that of Rake receiver without NBI Keywords – Bit error rate, Impulse radio, Non-line of sight, SRAKE receiver, Ultra wideband (UWB)
Design, Analysis and Implementation of Modified Luby Transform CodeIOSR Journals
Abstract : Bit losses in erasure channels like computer networks are of great concern. The existing methods to combat bit losses are either inefficient or time consuming due to the retransmission protocols involved. Through this paper, we propose a Modified Luby Transform (MLT) coding scheme to efficiently transmit data over live computer networks. The MLT code can combat bit losses as well as eliminate the need for retransmission. The usability and reliability of the proposed MLT code is verified by testing it on a live computer network. Keywords : Erasure channel, Fountain Codes, Luby Transform Codes , Wired Networks, Wireless Networks
Modification of Disc Brakes Using Rotating Brake PadsIOSR Journals
Under the topic ‘Modification of Disc Brakes using Rotating Friction Pads’, I have studied different
components of disc brake which includes rotor, calipers, and fixed friction pads.My main aim is to increase the
braking effect by modifying the existing design by using rotating friction pad. This friction pad is made to rotate
in opposite direction as that of rotor, this is done by using a separate assembly of compound gear train. In this
assembly 2 shafts are used, one shaft is connected between tire and gear and second shaft connects gear and
rotating friction pad. Both the gears are meshed with each other. As the wheel rotates in clockwise direction,
the gear attached to it will also rotate. Other gear which is in meshed position with first gear will rotate in anticlockwise
direction. This will help to move friction pad in anti-clockwise direction as that of wheel’s clockwise
motion. Aim for using rotating friction pad is to provide maximum possible friction which results in retardation
of motion, rotating friction pad not only will provide the friction due to contact but will also provide the friction
due to rotation. Calculations regarding speed of gears, and motion of wheel will clearly elaborate the idea, this
slight modification helps in reducing braking time. Important thing in this innovation is that the energy required
to stop the wheel or disc of brakes is transmitted from wheel only
Organizational citizenship Behavior as Attitude Integrity in Measurement of I...IOSR Journals
Quality of Human Resource represent one of the factor which to increase performance productivity an institution or organization. Therefore, needed Human Resource having high interest because interest or membership will be able to support the make-up of employees performance achievement. During the time at generally in governance institution not yet had officer with adequate interest, proved with still lower officer productivity and is difficult measure officer performance [in] governance institution scope. Performance Management System in a modern concept of human resource management is an objective and transparent performance measurement model of Organizational Citizenship Behavior in giving reward to individual’s sacrifice for organization. Three main elements of individual’s sacrifice performed in Organizational Citizenship Behavior (OCB) are compliance, loyality, and participation.The organization shoud appreciate these attitudes by giving clear job description and brief rewardsystemcriteriato encourage the individual’s job motivation. Combined with theindividual assessment of job description, job grading is used to compile a correct Key Performance Indexand a precise salary component. The aim of this action research is to give a comprehensive solution for Hospital X, in order to determine a Key Performance Indexsmodel, in response to some problems such as jobmotivation, work stress and performance. An interviews with hospital’s director and Human Resources section was conducted to compile the KPI. The results of this research can be recommended to the hospital to make a comprehensive performance assessment consist of the review of employee's job descriptions, Key Performance Indicator (KPI), job grading, specifying fundamental salary based on work,Bonus Scame and score summary
Computations of the Ground State Cohesive Properties Of Alas Crystalline Stru...IOSR Journals
A density functional theory codes FHI-aims is used to investigate the material properties of AlAs bulk crystalline structures. The code has several input parameters or variables some of which should be optimized. In the FHI-aims code we study different phases of AlAs crystalline structure and the ground state cohesive properties of the most stable structure of AlAs was computed within GGA and LDA of the density-functional theory. The results of computations shows that the ground state equilibrium properties of and AlAs such as Lattice constants, cohesive energies and Bulk modulus are in agreement with experimentally found values within reasonable percentage errors.
Evaluating Perceived Quality of B-School WebsitesIOSR Journals
Websites are a window for the world for looking in most of the Information and a gateway for many activities. Websites are not only a necessity but also mandatory for B-Schools. A B-School Website serves as portal to all stakeholders in addition to being an information placeholder. The Websites serves from being an administrative tool to a Learning Management system. The utility and the effectiveness of website depend on the quality of the service it provides to the surfer. A study was undertaken to survey the various features of a B-School Website that could serve as a Quality Function Deployment (QFD) touchstones. In addition, the influence of perceived quality on the user satisfaction was also studied. A focus group of B-School Students evaluated the Websites and scored a checklist cum questionnaire. The results highlight the most frequently found features and the least found features of a B-School Website. The factors that are important for creating a quality website are also found. This study will help the B-school administrators and the Website designers to create a quality and satisfying Websites.
An EOQ Model for Weibull Deteriorating Items With Price Dependent DemandIOSR Journals
In the present paper we developed an economic order quantity model for Weibull deteriorating items with price dependent demand rate together with a replenishment policy for profit maximization. The demand rate is a continuous and differentiable function of price. The variable items deteriorate with time shortages are allowed and completely back-ordered. Further it is illustrated with the help of numerical examples.
Albert Einstein,Isaac Newton, Thomas Edison, Marie curie, archmedes, volta, famous physics scientists, world famous scientists, Nobel prize winner , physics best famous scientists, father of physics, Nikole tesla, Alfred nobel , Michael faraday, Benjamin franklin
1. IOSR Journal of Applied Physics (IOSR-JAP)
e-ISSN: 2278-4861.Volume 5, Issue 2 (Nov. - Dec. 2013), PP 60-68
www.iosrjournals.org
www.iosrjournals.org 60 | Page
Brief Reports of Nobel Laureates in Physics
Dr.Shaikh Sarfaraz Ali
Department of Physics, Veer Surendra Sai University of Technology (VSSUT), Burla-768018, Samalpur, Odisha,
India.
Abstract: Alfred B. Nobel, a Swedish chemist and engineer who invented dynamite left $ 9 million in his will to
establish the Nobel Prize, which are awarded annually, without regard to nationality, in six different areas like
Peace, Literature, Physics, Chemistry, Physiology or Medicine and Economic Science to those who, during the
preceding year, shall have conferred the greatest benefit on mankind. Here the complete list of all the Nobel
Laureates in Physics since 1901 to 2013 is compiled.
1901-Wilhelm Conrad Rontgen, Born in Lennep, Rhenish Prussia, Germany (1845-1923) was awarded the
Nobel Prize for the Discovery of Rontgen rays which is also known as X-rays.
1902-Hendrik Antoon Lorentz, Born in Arnhen, the Netherlands (1853-1928) was awarded 1/2 of the Nobel
Prize for the investigations of effects of magnetism on the phenomena of radiation.
1902-Pieter Zeeman, Born in Zonnemaire, the Netherlands (1865-1943) was awarded 1/2 of the Nobel Prize for
the Investigations of the effects of magnetism on the phenomena of radiation.
1903-Henri Antoine Becquerel, Born in Paris (1852-1908) was awarded 1/2 of the Nobel Prize for the discovery
of spontaneous radioactivity.
1903-Pierre Curie, Born in Paris (1859-1906) was awarded 1/4 of the Nobel Prize for the Phenomena of
radiation discovered by Becquerel.
1903-Marie Sklodovska Curie, Born in Warsaw, France (1867-1934) was awarded 1/4 of the Nobel Prize for the
Phenomena of radiation discovered by Becquerel.
1904-Lord Rayleigh (John William Strutt), Born in Essex, England (1842-1919) was awarded the Nobel Prize
for the Investigations on the densities of most important gases, and for the discovery of argon, one of the results
of those investigations.
1905-Philipp Eduard Anton Von Lenard, Born in Pressburg, then Austria-Hungary (1862-1947) was awarded the
Nobel Prize for the work on cathode rays.
1906-Joseph John Thomson, Born in Cheetham Hall, Near Manchester, United Kingdom (1856-1940) was
awarded the Nobel Prize for the Theoretical and experimental investigations on passage of electricity through
gases.
1907-Albert Abraham Michelson, Born in Streino, Prussia, Germany (1852-1931) was awarded the Nobel Prize
for the optical instruments of precision and the spectroscopic and meteorological investigations which he
carried out by means of them.
1908-Gabriel Lippmann, Born in Hollerich, Luxemburg, France (1845-1921) was awarded the Nobel Prize for
the method of photographic reproduction of colors, based upon the phenomenon of interferences.
1909-Karl-Ferdinand Braun, Born in Fulda, Germany (1850-1918) was awarded 1/2 of the Nobel Prize for the
development of wireless telegraphy.
1909-Guglielmo Marconi, Born in Bologana, Italy (1874-1937) was awarded 1/2 of the Nobel Prize for the
development of wireless telegraphy.
1910-Johannes Diderik Van der Waals, Born in Leyden, the Netherlands (1837-1923) was awarded the Nobel
Prize for the work on equation of state of gases and liquids.
1911-Wilhelm Wien, Born in Geffken, East Prussia, Germany (1864-1928), was awarded the Nobel Prize for the
discoveries regarding the laws governing the radiation of heat.
1912-Nils Gustaf Dalen, Born in Stenstorp, Sweden (1869-1937) was awarded the Nobel Prize for the invention
of automatic regulators that can be used in conjunction with gas accumulators for lighting the lighthouses and
light buoys .
1913-Heike Kamerlingh Onnes, Born in Groningen, the Netherlands (1853-1926) was awarded the Nobel Prize
for the Investigations on the properties of matter at low temperatures, which led inter-alia to the production of
liquid helium.
1914-Max Von Laue, Born in Phaffendorf on the Rhine, Germany (1879-1960) was awarded the Nobel Prize for
the Discovery of diffraction of Rontgen rays (x-rays) in crystals.
1915-Sir William Henry Bragg, Born in Westward, Cumberland, United Kingdom (1862-1942) was awarded 1/2
of the Nobel Prize for the analysis of crystal structure by means of X-rays.
1915-William Lawrence Bragg, S/o Sir William Henry Bragg, Born in Adelaide, South Australia (1890-1971)
2. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 61 | Page
was awarded 1/2 of the Nobel Prize for the study of crystal structure by means of X-rays.
1916-The Nobel Prize money was allocated to the special fund of this Prize section.
1917-Charles Glover Barkla, Born in Widnes, Lancashire, United Kingdom (1877-1944) was awarded the Nobel
Prize for the discovery of the characteristic Rontgen radiation of the element.
1917-Henry G. J. Moseley, Born in Weymouth, on England's south coast (1887-1915). From the data he was
able to infer a relationship between the x-ray wavelength of an element and its atomic number, a relationship
that permitted him to correct ambiguities in then-current atomic number assignments and to predict the existence
of several then-unknown elements. He would have also shared the Nobel Prize with Charles Glover Bakla, but
for his death at Galipoli.
1918-Max Karl Ernst Ludwig Planck, Born in Kiel, Germany (1858-1947) was awarded the Nobel Prize for the
development of Physics by the discovery of energy quanta.
1919-Johannes Stark, Born in Schickenhof, Bavaria, Germany (1874-1957) was awarded the Nobel Prize for the
discovery of the Doppler effect in canal rays and the separation of spectral lines in an electric fields.
1920-Charles Edouard Guillaume, Born in Fleuriar, Switzerland (1861-1938) was awarded the Nobel Prize for
the Precise measurements in Physics by the discovery of anomalies in nickel-steel alloys.
1921-Albert Einstein, Born in Ulm, Wurtemberg, Germany (1879-1955) was awarded the Nobel Prize for the
attainments in mathematical physics, theory of Relativity and especially for the discovery of law of the photo
electric effect.
1922-Neils Henrik David Bohr, Born in Copenhagen, Denmark (1885-1962) was awarded the Nobel Prize for
the Investigation of the structure of atoms and of the radiation emanating from them.
1923-Robert Andrews Millikan, Born at Morrison, Illinois, USA (1868-1953) was awarded the Nobel Prize for
the work on elementary charge of electricity and also on photoelectric effect.
1924-Karl Manne Georg Siegbahn, Born in Orebro, Sweden (1886-1978) was awarded the Nobel Prize for the
Research and discoveries in x-ray (measurements of X-ray wavelength) spectroscopy.
1925-James Franck, Born in Hamburg, Germany (1882-1964) was awarded 1/2 of the Nobel Prize for the
discovery of the laws governing the impact of an electron upon an atom.
1925-Gustav Ludwig Hertz, Born in Hamburg, Germany (1887-1975) was awarded 1/2 of the Nobel Prize for
the Discovery of the laws governing the impact of an electron upon an atom.
1926-Jean Baptiste Perrin, Born in Lille, France (1870-1942) was awarded the Nobel Prize for the work on the
discontinuity in the structure of matter, and in particular for the discovery of the equilibrium of sedimentation.
1927-Charles Thomson Rees Wilson, Born in Glencorse, Near Edinburg, United Kingdom (1869-1959) was
awarded 1/2 of the Nobel Prize for the Discovery of a method of rendering discernible the paths of electrically
charged particles by the condensation of vapor.
1927-Arthur Holly Compton, Born in Wooster, Ohio, USA (1892-1962) was awarded 1/2 of the Nobel Prize for
the Discovery of Compton effect, which confirmed the quantum theory of radiation and assigned mass as well as
energy to light quanta.
1928-Sir Owen Willians Richardson, Born in Dewsbury,Yorkshire, United Kingdom (1879-1959) was awarded
the Nobel Prize for the work on the thermionic phenomena and especially for discovering the law which bears
his name.
1929-Prince Louis (Victor Pierre Raymond de Broglie), Born at Dieppe, France (1892-1987) was awarded the
Nobel Prize for the discovery of wave character of electrons.
1930-Sir Chandrasekhar Venkata Raman, Born in Trichinopoly,Tamilnadu, India (1888-1970) was awarded the
Nobel Prize for the Discovery of scattering of light which is well known as Raman Effect: that the radiation is
scattered by various substances with a change in frequency, the change being characteristic of the scattering
atoms or molecules. Why the sky looks blue and why the sea water looks blue?
1931-The Nobel Prize money was allocated to the special fund of this section.
1932-Werner Heisenberg, Born in Duisberg, Rhenish Prussia, Germany (1901-1976) was awarded the Nobel
Prize for the Creation of quantum mechanics (matrix mechanics), whose application has led to the discovery of
allotropic forms of hydrogen.
1933-Paul Adrien Maurice Dirac, Born in Bristol, United Kingdom (1902-1982) was awarded 1/2 of the Nobel
Prize for the Creation of wave mechanics, mathematical theory of quantum mechanics: statistics.
1933-Erwin Schrodinger, Born in Wien, Austria (1887-1961) was awarded 1/2 of the Nobel Prize for the
creation of wave mechanics, a theory of Interactions of elementary particles.
1934-The Nobel Prize money was with 1/3 allocated to the main fund and with 2/3 to the special fund of this
prize section.
1935-Sir James Chadwick, Born in Manchester, United Kingdom (1891-1974) was awarded the Nobel Prize
for the discovery of the neutron.
1936-Victor Franz Hess, Born in Waldstein castle, Near Peggau, Austria (1883-1964) was awarded 1/2 of the
Nobel Prize for the Discovery of cosmic radiation.
3. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 62 | Page
1936-Carl David Anderson, Born in NewYork City (1905-1991) was awarded 1/2 of the Nobel Prize for the
discovery of the Positron (anti-electron).
1937-Clinton Joseph Davisson, Born in Bloomington, Illinois,USA (1881-1958) was awarded 1/2 of the Nobel
Prize for the Experimental discovery of the diffraction of electrons by crystals.
1937-Sir George Paget Thomson, Born in Cambridge, England (1892-1975) was awarded 1/2 of the Nobel Prize
for the Experimental discovery of the diffraction of electrons by crystals.
1938-Enrico Fermi, Born in Rome, Italy (1901-1954) was awarded the Nobel Prize for the Identification of new
radioactive elements produced by Neutron bombardment and the discovery of nuclear reactions affected by slow
neutrons.
1939-Ernest Orlando Lawrence, Born in Canton, South Dakota, USA (1901-1958) was awarded the Nobel Prize
for the Invention and development of the cyclotron and for the production of artificial radioactive elements.
1940-The Nobel Prize money was with 1/3 allocated to the main fund and with 2/3 to the special fund of this
prize section.
1941-The Nobel Prize money was with 1/3 allocated to the main fund and with 2/3 to the special fund of this
prize section.
1942-The Nobel Prize money was with 1/3 allocated to the main fund and with 2/3 to the special fund of this
prize section.
1943-Otto Stern, Born in Sohrau, Germany (1888-1969) was awarded the Nobel Prize for the Contribution to
the development of the molecular-ray method of detecting the magnetic moment of proton.
1944-Isidor Isaac Rabi, Born in Rymanow, then Austria-Hungary (1898-1988) was awarded the Nobel Prize for
the Extraordinary research in the resonance method of recording the magnetic properties of nuclei.
1945-Wolfgang Pauli, Born in Wien, Austria (1900-1958) was awarded the Nobel Prize for the discovery of the
exclusion principle, which deals with regulation of electrons in the outer shell of atoms, which is also called
Pauli Exclusion Principle.
1946-Percy Williams Bridgeman, Born in Cambridge, Massachusetts, USA (1882-1961) was awarded the Nobel
Prize for the Investigation of an apparatus to produce extremely high pressure, and for the discoveries he made
therewith in the field of high pressure Physics.
1947-Sir Edward Victor Appleton, Born in Bradford, Yorkshire, United Kingdom (1892-1965) was awarded the
Nobel Prize for the extraordinary research in physics of the upper atmosphere, particularly for the discovery of
ionized layer called as Appleton layer.
1948-Patrick Maynard Stuart Blackett, Born in London (1897-1974) was awarded the Nobel Prize for the
development of Wilson cloud chamber method and discoveries therewith in the field of nuclear physics and
cosmic radiation.
1949-Hideki Yukawa, Born in Tokyo (1907-1981) was awarded the Nobel Prize for the Prediction of the
existence of mesons, based upon the theory of nuclear forces.
1950-Cecil Frank Powell, Born in Tonbridge, Kent,United Kingdom (1903-1969) was awarded the Nobel Prize
for the Development of a simple method of examining the action of nuclei by the photography (Nuclear
Emulsion Technique) and also for important discoveries concerning the production of π Mesons which was
predicted by Hideki Yukawa, Japanese Physicist.
1951-Sir John D. Cockcroft, Born in Todmorden, United Kingdom (1897-1967) was awarded 1/2 of the Nobel
Prize for the discovery of transmutations of nuclei by artificially accelerated particles.
1951-Ernest T.S.Walton, Born in Dungarvan, Ireland (1903-1995) was awarded 1/2 of the Nobel Prize for the
production of nuclear transmutations.
1952-Edward Mills Purcell, Born in Taylorville, Illinois,USA (1912-1997) was awarded 1/2 of the Nobel Prize
for the development of new methods to measure the nuclear magnetic moments and also the discoveries in
connection therewith.
1952-Felix Bloch, Born in Zurich, Switzerland (1905-1983) was awarded 1/2 of the Nobel Prize for the develop
–ment of new methods to measure the Nuclear magnetic moments and also the discoveries in connection
therewith.
1953-Frits Frederik Zernike, Born in Amsterdam, the Netherlands (1888-1966) was awarded the Nobel Prize
for the method of phase contrast and especially for the invention of phase-contrast microscope.
1954-Max Born, Born in Breslau, then Germany (1882-1970) was awarded 1/2 of the Nobel Prize for the funda
-mental work in Quantum Mechanics and especially for the statistical interpretation of wave function.
1954-Walter Bothe, Born in Oranienburg, Federal Republic of Germany (1891- 1957) was awarded 1/2 of the
Nobel Prize in physics for the method of coincidence and the discoveries which it had made possible.
1955-Polykarp Kusch,Born in Blankenberg, Germany (1911-1993) was awarded 1/2 of the Nobel Prize for the
precise determination of magnetic moment of electron.
1955-Wills Eugene Lamb, Jr., Born in Los Angeles, USA (1913) was awarded 1/2 of the Nobel Prize for the
discoveries concerning the fine structure of the hydrogen spectrum.
4. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 63 | Page
1956-William Bradford Shockley, Born in London (1910-1989) was awarded 1/3 of the Nobel Prize for the
discovery of semiconductors and transistor effect.
1956-Walter Houser Brattain, Born in USA (1902-1987) was awarded 1/3 of the Nobel Prize for the discovery
of semiconductors and transistor effect.
1956-John Bardeen, Born in Madison, Wisconsin, USA (1908-1991) was awarded 1/3 of the Nobel Prize for the
discovery of semiconductors and transistor effect.
1957-Chen Ning Yang, Born in Hofei, China (1922) was awarded 1/2 of the Nobel Prize for the overthrow of
the principle of the conservation of Parity.
1957-Tsung Dao Lee, Born in China (1926) was awarded 1/2 of the Nobel Prize for the experiments which
destroyed the long accepted principle of conservation of Parity.
1958-Pavel A. Cherenkov, Born in USSR (1904-1990) was awarded 1/3 of the Nobel Prize for the discovery and
interpretation of the Cherenkov Effect.
1958-Il'ja M.Frank, Born in USSR (1908-1990) was awarded 1/3 of the Nobel Prize for the discovery and
interpretation of the Cherenkov Effect.
1958-Igor Y.Tamm, Born in USSR (1895-1971) was awarded 1/3 of the Nobel Prize for the discovery and
interpretation of the Cherenkov Effect.
1959-Owen Chamberlain, Born in San Francisco, USA (1920) was awarded 1/2 of the Nobel Prize for the
discovery of the anti-proton.
1959-Emilio Gino Segre, Born in Tivoli, Italy (1905-1989) was awarded 1/2 of the Nobel Prize for the discovery
of the anti-proton.
1960-Donald Arthur Glaser, Born in Cleveland, USA (1926) was awarded the Nobel Prize for the invention of
the Bubble chamber.
1961-Rudolf-Ludwig Mossbauer, Born in Munich, Federal Republic of Germany (1929) was awarded 1/2 of the
Nobel Prize for the resonance absorption of gamma radiation and the discovery in this connection of the effect
which bears his name, Mossbauer effect.
1961-Robert Hofstadter, Born in USA (1915-1990) was awarded 1/2 of the Nobel Prize for the Pioneering
studies of electron scattering in atomic nuclei and for thereby achieving discoveries concerning the structure of
the nucleons.
1962-Lev Davidovich Landau, Born in Baku, USSR (1908-1968) was awarded the Nobel Prize for the
Pioneering theories of condensed matter, especially for liquid helium.
1963-Eugene Paul Wigner, Born in Budapest, Hungary (1902-1995) was awarded 1/2 of the Nobel Prize for
many contributions to the theory of the atomic nucleus and the elementary particles, particularly through the
discovery and application of fundamental symmetry principles.
1963-Maria Goeppert Mayer, Born in Kattowitz, then Germany (1906-1972) was awarded 1/4 of the Nobel
Prize for adding to man's knowledge about the nuclear shell model.
1963-J. Hans D. Jensen, Born in Federal Republic of Germany (1907-1973) was awarded 1/4 of the Nobel Prize
for adding to man's knowledge about the structure of nuclear shell model.
1964-Aleksandr Mikhailovich Prokhorov, Born in USSR (1916-2002) was awarded 1/3 of the Nobel Prize for
the fundamental work in the field of quantum electronics, which has led to the construction of oscillators and
amplifiers based on the maser-laser principle.
1964-Charles Hard Townes, Born in Greenville, USA (1915) was awarded 1/3 of the Nobel Prize for the
fundamental work in the field of quantum electronics, which has led to the construction of oscillators and
amplifiers based on the maser-laser principle.
1964-Nikolai Gennadiyevich Basov, Born in USSR (1922-2001) was awarded 1/3 of the Nobel Prize for the
fundamental work in the field of quantum electronics, which has led to the construction of oscillators and
amplifiers based on the maser-laser principle.
1965-Richard P. Feynman ,Born in NewYork(1918-1988) was awarded 1/3 of the Nobel Prize for the funda-
mental work in quantum electrodynamics, with deep ploughing consequences for the physics of elementary
particles.
1965-Julian Schwinger, Born in New York (1918-1994) was awarded 1/3 of the Nobel Prize for the funda-
mental work in quantum electrodynamics, with deep ploughing consequences for the physics of elementary
particles.
1965-Sin-Itiro Tomonaga, Born in Japan (1906-1979) was awarded 1/3 of the Nobel Prize for the Fundamental
work in quantum electrodynamics, with deep ploughing consequences for the physics of elementary particles.
1966-Alfred Kastler, Born in France (1902-1984) was awarded the Nobel Prize for the discovery and develop-
ment of optical methods for studying the Hertzian resonance in atoms.
1967-Hans Albrecht Bethe, Born in Strasbourg, then Germany (1906) was awarded the Nobel Prize for the work
on the theory of nuclear reactions, and especially for the discoveries concerning the energy production in stars.
1968-Luis Walter Alvarez, Born in San Francisco, California (1911-1988) was awarded the Nobel Prize for the
5. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 64 | Page
decisive contributions to elementary Particle Physics, in particular the discovery of a large number of resonance
states, made possible through his development of the technique of using hydrogen bubble chamber and data
analysis.
1969-Murray Gell-Mann, Born in New York (1929), was awarded the Nobel Prize for the contributions and
discoveries concerning the classification of Elementary Particles and their Interactions.
1970-Hannes Olof Gosta Alfven, Born in Sweden (1908-1995) was awarded 1/2 of the Nobel Prize for the
fundamental work in magneto hydrodynamics with fruitful applications in different parts of Plasma Physics.
1970-Louis Eugene Felix Neel, Born in France (1904-2000) was awarded 1/2 of the Nobel Prize for the
fundamental work and discoveries concerning Ferro- magnetism and anti-Ferro magnetism, which have led to
the important applications in solid state Physics.
1971-Dannis Gabor, Born in Budapest, Hungary (1900-1979) was awarded the Nobel Prize for the Discovery
and development of the holographic method.
1972-John Robert Schrieffer, Born in USA (1931) was awarded 1/3 of the Nobel Prize for the Development of
theory of superconductivity, usually called as the BCS-theory.
1972-Leon Neil Cooper, Born in USA (1930) was awarded 1/3 of the Nobel Prize for the Development of theory
of superconductivity, usually called as the BCS theory.
1972-John Bardeen, Born in Madison, Wisconsin, USA (1908-1999) was awarded 1/3 of the Nobel Prize for the
development of theory of super conductivity, usually called the BCS-theory.
1973-Brian David Josephson, Born in United Kingdom (1940) was awarded 1/2 of the Nobel Prize for the
Theoretical predictions of the properties of a super-current through a tunnel barrier, in particular those
phenomena which are generally known as the Josephson effects.
1973-Ivar Giaever, Born in Bergen, Norway (1929) was awarded 1/4 of the Nobel Prize for Experimental
discoveries regarding tunneling phenomena in semi-conductors and super conductors respectively.
1973-Leo Esaki, Born in Japan (1925) was awarded 1/4 of the Nobel Prize for the Experimental discoveries
regarding tunneling phenomena in semi-conductors and super conductors respectively.
1974- Sir Martin Ryle, Born in United Kingdom (1918-1984) was awarded 1/2 of the Nobel Prize for the
Pioneering research in the radio astrophysics, in particular for the aperture synthesis technique.
1974-Antony Hewish, Born in United Kingdom (1924) was awarded 1/2 of the Nobel Prize for the Pioneering
research in the radio astrophysics, in particular his decisive role in the discovery of Pulsars.
1975-Aage Niels Bohr, Born in Denmark (1922) was awarded 1/3 of the Nobel Prize for the discovery of the
connection between the collective motion and the particle motion in atomic nuclei and the development of the
theory of the structure of the atomic nucleus based in this connection.
1975-Ben Roy Mottelson, Born in Chicago, USA (1926) was awarded 1/3 of the Nobel Prize for the Discovery
of the connection between the collective motion and the particle motion in atomic nuclei and the development of
the theory of the structure of the atomic nucleus based on this connection.
1975-Leo James Rainwater, Born in USA (1917-1986) was awarded 1/3 of the Nobel Prize for the discovery of
the connection between the collective motion and the particle motion in atomic nuclei and the development of
the theory of the structure of the atomic nucleus based on this connection.
1976-Burton Richter, Born in USA (1931) was awarded 1/2 of the Nobel Prize for the Pioneering work in the
discovery of a heavy elementary particle of a new kind known as charm quark ( c ).
1976-Samuel Chao Chung Ting, Born in USA (1936) was awarded 1/2 of the Nobel Prize for the Pioneering
work in the discovery of a heavy elementary particle of a new kind known as charm quark ( c ).
1977-Philip Warren Anderson, Born in USA (1923) was awarded 1/3 of the Nobel Prize for the Fundamental
theoretical investigations of the electronic structure of magnetic and disordered system.
1977-Sir Nevill Francis Mott, Born in United Kingdom (1905-1996) was awarded 1/3 of the Nobel Prize for
the fundamental theoretical investigations of the electronic structure of magnetic and disordered system.
1977-John Hasbrouck Van Vleck, Born in USA (1899-1980) was awarded 1/3 of the Nobel Prize for the
fundamental theoretical investigations of the electronic structure of magnetic and disordered system.
1978-Pyotr Leonidovich Kapitsa, Born in USSR (1894-1984) was awarded 1/2 of the Nobel Prize for the Basic
inventions and discoveries in the area of low-temperature Physics.
1978-Arno Allan Penzias, Born in Munich, Germany (1933) was awarded 1/4 of the Nobel Prize for the
discovery of cosmic microwave background radiation.
1978-Robert Woodrow Wilson, Born in USA (1936) was awarded 1/4 of the Nobel Prize for the discovery of
cosmic microwave background radiation.
1979-Sheldon Lee Glashow, Born in USA (1932) was awarded 1/3 of the Nobel Prize for the Contribution to
the theory of the unified weak and electro- magnetic interaction between elementary particles, including, inter-
alia, the prediction of the weak neutral current.
1979-Abdus Salam, Born in India (1926-1996) was awarded 1/3 of the Nobel Prize for the contribution to the
theory of the unified weak and electro- magnetic interaction between elementary particles, including, inter-alia,
6. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 65 | Page
the prediction of the weak neutral current.
1979-Steven Weinberg, Born in USA (1933) was awarded 1/3 of the Nobel Prize for the Contribution to the
theory of the unified weak and electro- magnetic interaction between elementary particles, including, inter alia,
the prediction of the weak neutral current.
1980-James Watson Cronin, Born in USA (1931) was awarded 1/2 of the Nobel Prize for the discovery of
violation of fundamental symmetry principles in the decay of neutral k-mesons.
1980-Val Logsdon Fitch, Born in USA (1923) was awarded 1/2 of the Nobel Prize for the discovery of violation
of fundamental symmetry principles in the decay of neutral k-mesons.
1981-Kai M. Siegbahn, Born in Sweden (1918) was awarded 1/2 of the Nobel Prize for the Contribution to the
development of high resolution electron spectroscopy.
1981-Arthur Leonard Schawlow, Born in USA (1921-1999) was awarded 1/4 of the Nobel Prize for the
contribution to the development of laser spectroscopy.
1981-Nicolaas Bloembergen, Born in Dordrccht, the Netherlands (1920) was awarded 1/4 of the Nobel Prize for
the Contribution to the development of laser spectroscopy.
1982-Kenneth G. Wilson, Born in USA (1936) was awarded the Nobel Prize for the Theory of critical
phenomena in connection with phase transitions.
1983-Subramanian Chandrasekhar, Born in Lahore, India (1910-1995) was awarded 1/2 of the Nobel Prize for
the Theoretical studies of physical processes of importance to the structure and evolution of the stars.
1983-William Alfred Fowler, Born in USA (1911-1995) was awarded 1/2 of the Nobel Prize for the theoretical
and experimental studies of the nuclear reactions of importance in the formation of the chemical elements in the
Universe.
1984-Carlo Rubbia, Born in Italy (1934) was awarded 1/2 of the Nobel Prize for the Decisive contributions to
the large project, which led to the discovery of the field particles W+
, W-
and Z0
communicators of weak
interactions.
1984-Simon Van der Meer, Born in the Netherlands (1925) was awarded 1/2 of the Nobel Prize for the decisive
contributions to the large project, which led to the discovery of the field Particles W+
, W-
and Z0
communicators of weak interactions.
1985-Klaus Von Klitzing, Born in Federal Republic of Germany (1943) was awarded the Nobel Prize for the
discovery of the quantized Hall Effect.
1986-Ernst Ruska, Born in Federal Republic of Germany (1906-1988) was awarded 1/2 of the Nobel Prize for
the Fundamental work in electron optics and for the design of the first electron microscope.
1986-Gerd Binning, Born in Federal Republic of Germany (1947) was awarded 1/4 of the Nobel Prize for
design of the scanning tunneling microscope.
1986-Heinrich Rohrer, Born in Switzerland (1933) was awarded 1/4 of the Nobel Prize for the Design of the
scanning tunneling microscope.
1987-Georg Bednorz, Born in Federal Republic of Germany (1950) was awarded 1/2 of the Nobel Prize for the
important break-through in the discovery of superconductivity in ceramic materials.
1987-Karl Alex Muller, Born in Switzerland (1927) was awarded 1/2 of the Nobel Prize for the important break-
through in the discovery of super-conductivity in ceramic materials.
1988-Leon M. Lederman, Born in USA (1922) was awarded 1/3 of the Nobel Prize for the Neutrino beam
method and the demonstration of the doublet structure of the leptons through the discovery of the muon-
neutrino.
1988-Melvin Schwartz, Born in USA (1932) was awarded 1/3 of the Nobel Prize for the Neutrino beam method
and the demonstration of the doublet structure of the leptons through the discovery of the muon-neutrino.
1988-Jack Steinberger, Born in Bad Kissingen, Germany (1921) was awarded 1/3 of the Nobel Prize for the
Neutrino beam method and the demonstration of the doublet structure of the leptons through the discovery of
the muon-neutrino.
1989-Norman F. Ramsay, Born in USA (1915) was awarded 1/2 of the Nobel Prize for the Invention of the
separated oscillatory fields method and its use in the hydrogen maser and other atomic clocks.
1989-Hans. G. Dehmelt, Born in Gorlitz, Germany (1922) was awarded 1/4 of the Nobel Prize for the
development of ion trap technique.
1989-Wolfgang Paul, Born in Federal Republic of Germany (1913-1990) was awarded 1/4 of the Nobel Prize
for development of ion trap technique.
1990-Jerome I. Friedman, Born in USA (1930) was awarded 1/3 of the Nobel Prize for the Pioneering
investigation concerning deep inelastic scattering of electrons on protons and bound neutrons, which have been
of essential importance for the development of the quark model in Particle Physics.
1990-Henry W. Kendall, Born in USA (1926-1999) was awarded 1/3 of the Nobel Prize for the Pioneering
investigation concerning deep inelastic scattering of electrons on protons and bound neutrons, which have been
of essential importance for the development of the quark model in Particle Physics.
7. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 66 | Page
1990-Richard E. Taylor, Born in Canada (1929) was awarded 1/3 of the Nobel Prize for the Pioneering
investigation concerning deep inelastic scattering of electrons on protons and bound neutrons, which have been
of essential importance for the development of the quark model in Particle Physics.
1991-Pierre-Gilles de Gennes, Born in France (1932) was awarded the Nobel Prize for discovering the methods
developed for studying the order phenomena in simple systems can be generalized to more complex forms of
matter, in particular to liquid crystals and polymers.
1992-Georges Charpak, Born in Dabrovica, Poland (1924) was awarded the Nobel Prize for the Invention and
development of particle detectors, in particular the Multi-wire proportional chamber.
1993-Russell A. Hulse, Born in USA (1950) was awarded 1/2 of the Nobel Prize for the Discovery of a new type
of Pulsar, which has opened up new possibilities for the study of gravitation.
1993-Josep H.Taylor Jr., Born in USA (1941) was awarded 1/2 of the Nobel Prize for the Discovery of a new
type of Pulsar, which has opened up new possibilities for the study of gravitation.
1994-Bertram N. Brockhouse, Born in Canada (1918) was awarded 1/2 of the Nobel Prize for the Pioneering
contributions to the development of neutron scattering techniques, for the studies of condensed matter.
1994-Clifford G. Shull, Born in USA (1915-2001) was awarded 1/2 of the Nobel Prize for the Development of
the neutron diffraction technique.
1995-Martin L.Perl, Born in USA (1927) was awarded 1/2 of the Nobel Prize for the Discovery of the tau
lepton.
1995-Frederick Reines, Born in USA (1918-1998) was awarded 1/2 of the Nobel Prize for the Detection of
neutrino particle.
1996-David M. Lee, Born in USA (1931) was awarded 1/3 of the Nobel Prize for the Discovery of super fluidity
in Helium-3.
1996-Douglas D.Osheroff, Born in USA (1945) was awarded 1/3 of the Nobel Prize for the Discovery of super
fluidity in Helium-3.
1996-Robert C. Richardson, Born in USA (1937) was awarded 1/3 of the Nobel Prize for the Discovery of
super fluidity in Helium-3.
1997-Steven Chu, Born in USA (1948) was awarded 1/3 of the Nobel Prize for the Development of methods to
cool and trap atoms with laser light.
1997-Claude Cohen-Tannoudji, Born in Constantine, Algeria (1933) was awarded 1/3 of the Nobel Prize for the
development of methods to cool and trap atoms with laser light.
1997-William D. Philips, Born in USA (1948) was awarded 1/3 of the Nobel Prize for the Development of
methods to cool and trap atoms with laser light.
1998-Robert B. Laughlin, Born in USA (1950) was awarded 1/3 of the Nobel Prize for the discovery of a new
form of quantum fluid with fractionally charged excitations.
1998-Horst L. Stormer, Born in Federal Republic of Germany (1949) was awarded 1/3 of the Nobel Prize for the
Discovery of a new form of quantum fluid with fractionally charged excitations.
1998-Daniel C. Tsui, Born in Henan, China (1939) was awarded 1/3 of the Nobel Prize for the Discovery of a
new form of quantum fluid with fractionally charged excitations.
1999-Gerardus t'Hooft, Born in the Netherlands (1946) was awarded 1/2 of the Nobel Prize for Elucidating the
quantum structure of electro-weak interactions in Physics.
1999-Martinus J. G.Veltman, Born in Bilthoven, the Netherlands (1931), was awarded 1/2 of the Nobel Prize for
Elucidating the quantum structure of electroweak interactions in Physics.
2000-Zhores I. Alferov, Born in Russia (1930) was awarded 1/4 of the Nobel Prize for the Basic work on
information and communication technology, in particular for developing semiconductor hetero structure used in
high- speed and Opto-electronics.
2000-Herbert Kroemer, Born in Federal Republic of Germany (1928) was awarded 1/4 of the Nobel Prize for
the Basic work on information and communication technology, in particular for developing semiconductor
hetero structure used in high speed and Opto-electronics.
2000-Jack S.Kilby, Born in USA (1923) was awarded 1/2 of the Nobel Prize for the Basic work on information
and communication technology, in particular for the invention of integrated circuit.
2001-Eric A. Cornell, Born in USA (1961) was awarded 1/3 of the Nobel Prize for the achievement of Bose-
Einstein condensation in dilute gases of alkali atoms, and for early fundamental studies of the properties of the
condensates.
2001- Wolfgang Ketterle, Born in Federal Republic of Germany (1957) was awarded 1/3 of the Nobel Prize for
the achievement of Bose-Einstein condensation in dilute gases of alkali atoms, and for early fundamental studies
of the properties of the condensates.
2001- Carl E. Wieman, Born in USA (1951) was awarded 1/3 of the Nobel Prize for the achievement of Bose-
Einstein condensation in dilute gases of alkali atoms, and for early fundamental studies of the properties of the
condensates.
8. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 67 | Page
2002-Riccardo Giacconi, Born in Genoa, Italy (1931) was awarded 1/2 of the Nobel Prize for the Pioneering
contributions to astro-physics, which have led to the discovery of cosmic X-ray sources.
2002-Masatoshi Koshiba, Born in Japan (1926) was awarded 1/4 of the Nobel Prize for the Pioneering
contributions to astro-physics, in particular for the detection of cosmic neutrinos (neutrino-astronomy).
2002-Raymond Davis Jr., Born in USA (1914) was awarded 1/4 of the Nobel Prize for the Pioneering
contributions to Astro-Physics, in particular for the detection of cosmic neutrinos (neutrino-astronomy).
2003-Anthony Leggett, Born in United Kingdom (1938) was awarded 1/3 of the Nobel Prize for Pioneering
contributions to the theory of superconductors and super fluidity.
2003-Alexei A.Abrikosov, Born in USA (1928) was awarded 1/3 of the Nobel Prize for Pioneering contributions
to the theory of superconductors and super fluidity.
2003-Vitaly Ginzburg, Born in Russia (1916) was awarded 1/3 of the Nobel Prize for the contributions to the
theory of superconductors and super fluidity.
2004-David J. Gross, Born in (1941) was awarded 1/3 of the Nobel Prize for the discovery of asymptotic free-
dom in the theory of the strong interaction.
2004-H. David Politzer, Born in (1949) was awarded 1/3 of the Nobel Prize for the Discovery of asymptotic
freedom in the theory of the strong interaction.
2004-Frank Wilczek, Born (1951) was awarded 1/3 of the Nobel Prize for the discovery of asymptotic freedom
in the theory of the strong interaction.
2005-Roy J. Glauber, was awarded one-half of the Nobel Prize for the contribution to the Quantum theory of
optical coherence.
2005-John L. Hall, was awarded one-fourth of the Nobel Prize for the contributions to the development of laser-
based precision spectroscopy, including the optical frequency comb technique.
2005-Theodore W. Hansch, was awarded one-fourth of the Nobel Prize for the contributions to the development
of laser-based precision spectroscopy, including the optical frequency comb technique.
2006-John C. Mather, was awarded one-half of the Nobel Prize for the discovery of the blackbody form and
anisotropy of the cosmic micro-wave background radiation.
2006-George F.Smoot, was awarded one-half of the Nobel Prize for the discovery of the blackbody form and
anisotropy of the cosmic micro-wave background radiation.
2007-Albert Fert, was awarded one-half of the Nobel Prize for the discovery of Giant magneto resistance.
2007-Peter Grunberg, was awarded one-half of the Nobel Prize for the discovery of Giant magneto resistance.
2008-Yoichiro Nambu, was awarded one-half of the Nobel Prize for the discovery of the mechanism of
spontaneous broken symmetry in sub- atomic physics.
2008-Makoto Kobayashi, was awarded one-fourth of the Nobel Prize for the discovery of the origin of the
broken symmetry which predicts the existence of at least three families of quarks in nature.
2008-Toshihide Maskawa, was awarded one-fourth of the Nobel Prize for the discovery of the origin of the
broken symmetry which predicts the existence of at least three families of quarks in nature.
2009-Charles Kuen Kao, was awarded one-half of the Nobel Prize for the ground breaking achievements
concerning the transmission of light in fibers for optical communication.
2009-Willard S.Boyle,was awarded one-fourth of the Nobel Prize for the invention of an imaging semiconductor
circuit- the CCD sensor.
2009-George E.Smith,was awarded one-fourth of the Nobel Prize for the invention of an imaging semiconductor
circuit- the CCD sensor.
2010-Andre Geim, was awarded one-half of the Nobel Prize for the Ground breaking experiments regarding the
two dimensional material graphene.
2010-Konstantin Novoselov, was awarded one-half of the Nobel Prize for the ground breaking experiments
regarding the two dimensional material graphene.
2011-Saul Perlmutter was born in United States of America in 1959. He was awarded ½ of the Nobel Prize for
the discovery of the “Accelerating expansion of the Universe through the observations of distant supernovae”.
2011-Brian Schmidt was born in Montana in USA in February 1967. He was awarded 1/4 of the Nobel Prize for
the discovery of the“Accelerating expansion of universe through the observations of distant supernovae”.
2011-Adam Riess was born in Washington D.C. in December 1969. He was awarded 1/4 of the Nobel Prize for
the discovery of the “Accelerating expansion of the Universe through observations of distant supernovae”.
2012-Serge Haroche was born in Casablanca, Morocco in 1944. He was awarded ½ of the Nobel Prize in
Physics “for ground-breaking experimental methods that enable measuring and manipulation of individual
quantum systems”.
2012-David J.Wineland was born in Milwaukee, WI, USA in 1944. He was awarded ½ of the Nobel Prize in
Physics “for ground-breaking experimental methods that enable measuring and manipulation of individual
quantum systems”.
2013- Peter Higgs was born on 29th
May 1929 in Newcastle Upon Tyne, United Kingdom. He is awarded ½ of
9. Brief Reports of Nobel Laureates in Physics
www.iosrjournals.org 68 | Page
the Nobel Prize in Physics for “The theoretical discovery of the mechanism that contribute to our understanding
of the origin of mass of subatomic particles, and which recently was confirmed through the discovery of the
predicted fundamental particles, by the CMS and ATLAS Experiments at CERN’s Large Hadron Collider”.
2013- Francois Englert was born on 6th
November 1932 in Etterbeck, Belgium.“The theoretical discovery of the
mechanism that contribute to our understanding of the origin of mass of subatomic particles, and which recently
was confirmed through the discovery of the predicted fundamental particles, by the CMS and ATLAS
Experiments at CERN’s Large Hadron Collider”.
Reference:
[1]. College Physics By R.L.Webber, K.V.Manning, M.W.White and A.G.Weygand.
[2]. Concepts of Modern Physics By Arthur Beiser.
[3]. http://www.nobel/laureates/physics.