This document provides search results from the 247th ACS National Meeting in Dallas, Texas for the name "Anis Rahman". The search returned 6 results, listing abstract titles, authors, divisions, dates, times and locations for presentations and posters where Anis Rahman is an author. The results are related to emerging terahertz imaging, characterization of diffusion properties using terahertz reflectometry, terahertz investigation of vaccine candidates, entrepreneurship and resources for small chemical businesses.
Terahertz (T-ray) techniques for measuring, profiling, and mapping of semiconductor features and doping concentration of via a T-ray volume imaging route, deep-level spectroscopy, and empirical modeling; and application thereof for semiconductor doping concentration thickness profiling and surface mapping for both undoped and doped semiconductors.
Terahertz (T-ray) techniques for measuring, profiling, and mapping of semiconductor features and doping concentration of via a T-ray volume imaging route, deep-level spectroscopy, and empirical modeling; and application thereof for semiconductor doping concentration thickness profiling and surface mapping for both undoped and doped semiconductors.
This paper outlines the basic technology and economic model of the core silicon technology. Silicon is the second most abundant element on the earth’s crust but there is no specific deposit or mine for silicon.
The only source for silicon is “sand” that the earth has an abundant supply. Here we outline the basic steps of manufacturing silicon ingot and wafers. It is projected that, once produced, these products will gain immediate market access, thus creating economic activities in a reasonably short period of time. The three initial products that could stem from the basic silicon ingot are silicon wafers, for both semiconductor and solar cell applications, and optical fiber for communication. This report focuses on the essential silicon
technology to produce silicon ingot, and silicon wafer, as the first step. Finally, the historic data available for the silicon wafer consumption per year have been modeled with the well-known Bass diffusion model.
It was found that with modified parameters, the Bass model fits the historic data well and the same model allows a projection for a few years in the future. This projected economic activities, therefore, encourages a social transformation towards a technological self-sufficiency.
Keywords: Silicon technology; Bass diffusion model; Silicon wafer consumption; Social transformation;
Technological self-sufficiency
DOI: 10.31031/NRS.2022.11.000760
Abstracts and Bios of the Chief Guest, Guest of Honor, distinguished Speakers and Panelists of the 2021 AABEA-FOBANA joint Seminar in Washington DC, November 27 and 28, 2021.
Lattice dilation of metallic nickel film deposited by plasma-spraying on a ceramic layer that is also prepared by plasma-spraying, has been investigated by high resolution terahertz imaging and sequential zooming of the images to quantify the lattice parameter by graphical analysis. A metallic nickel sample
was first imaged, and its measured lattice constant was found to be in agreement with the known value.
Subsequently, four additional samples containing plasma-sprayed nickel film have also been imaged via an identical procedure. The lattice images of all samples were used for graphical analysis and quantification of the respective lattice parameters. Four samples, viz., 77, 81, 129 and 111 have been analyzed and their lattice dilation was investigated. It was found that the lattice distance (d) of these samples is in the order as, d77 < d81 < d129 < d111 and higher than the value of metallic nickel. Unit cell volume and density were also calculated for each sample from the measured lattice parameter. The density was found in the decreasing order for the 4 samples; i.e., ρρρ ρ77 > ρ81 > ρ129 > ρ111 and the density values are significantly lower than the value for nickel. To our knowledge, this is the first direct evidence of the lattice dilation of plasma-sprayed metallic nickel measured via the terahertz lattice imaging, without requiring an electron microscope. Thus, the results presented herein establish an exciting extension of camera-less, reconstructive terahertz imaging technique that produces such a clear lattice image of nickel and allows to quantify the lattice parameter. The technique, however, is a general one, applicable to any material.
Abstract— This paper demonstrates overcoming of the Abbe diffraction limit (ADL) on image resolution. Here, terahertz multispectral reconstructive imaging has been described and used for analyzing nanometer size metal lines fabricated on a silicon wafer. It has also been demonstrated that while overcoming the ADL is a required condition, it is not sufficient to achieve sub-nanometer image resolution with longer wavelengths. A nanoscanning technology has been developed that exploits the modified Beer-Lambert’s law for creating a measured reflectance data matrix and utilizes the ‘inverse distance to power equation’ algorithm for achieving 3D, sub-nanometer image resolution. The nano-lines images reported herein, were compared to SEM images. The terahertz images of 70 nm lines agreed well with the TEM images. The 14 nm lines by SEM were determined to be ~15 nm. Thus, the wavelength dependent Abbe diffraction limit on image resolution has been overcome. Layer-by-layer analysis has been demonstrated where 3D images are analyzed on any of the three orthogonal planes. Images of grains on the metal lines have also been analyzed. Unlike electron microscopes, where the samples must be in the vacuum chamber and must be thin enough for electron beam transparency, terahertz imaging is non-destructive, non-contact technique without laborious sample preparation.
Abstract:
This paper demonstrates overcoming of the Abbe diffraction limit (ADL) on image resolution. Here, terahertz multispectral reconstructive imaging has been described and used for analyzing nanometer size metal lines fabricated on a silicon wafer. It has also been demonstrated that while overcoming the ADL is a required condition, it is not sufficient to achieve sub-nanometer image resolution with longer wavelengths. A nanoscanning technology has been developed that exploits the modified Beer-Lambert’s law for creating a measured reflectance data matrix and utilizes the ‘inverse distance to power equation’ algorithm for achieving 3D, sub-nanometer image resolution. The nano-lines images reported herein, were compared to SEM images. The terahertz images of 70 nm lines agreed well with the TEM images. The 14 nm lines by SEM were determined to be 15 nm. Thus, the wavelength dependent Abbe diffraction limit on image resolution has been overcome. Layer-by-layer analysis has been demonstrated where 3D images are analyzed on any of the three orthogonal planes. Images of grains on the metal lines have also been analyzed. Unlike electron microscopes, where the samples must be in the vacuum chamber and must be thin enough for electron beam transparency, terahertz imaging is non-destructive, non-contact technique without laborious sample preparation.
Two critical nanoscale design parameters (CNDPs); namely, surface chemistry and interior compositions of poly(amidoamine) (PAMAM) dendrimers were systematically engineered to produce unique hyperpolarizable, electro-optical substrates. These electro-optically active dendritic films were demonstrated to produce high quality, continuous wave terahertz radiation when exposed to a suitable pump laser that could be used for spectrometry and molecular imaging. These dendrimer based dipole excitation (DDE) terahertz sources were used to construct a working spectrometer suitable for many practical applications including THz imaging and analysis of encapsulated hydrogen species in fullerenes.
Abstract
Terahertz spectral analysis has been conducted on epitaxially grown semiconductor structures. Epitaxially grown semiconductors are important for microelectronic and optoelectronic devices and also for integrated circuits
fabricated using semiconductors. In this paper, we report results of terahertz time-domain spectroscopy of grown
SiGe layers on Ge buffer and separately a Ge buffer that was grown on a Si <001> wafer. In particular, evolution of
the time-domain spectra as a function of thickness of both samples was investigated by the terahertz pump-probe
technique. Representative spectra were analyzed to determine the respective layers’ spectral signatures. It was found that the spectroscopic analysis uniquely identified different layers by characteristic absorbance peaks. In addition, terahertz imaging was conducted in a non-destructive, non-contact mode for detecting lattice stacking fault and dislocations. Sub-surface imaging of grown SiGe layers on Ge buffer and that of the Ge buffer grown on a Si wafer reveals interesting lattice features in both samples. A comparison with TEM images of the samples exhibits that the terahertz image reproduces the dimensions found from TEM images within the experimental error limits. In particular, 3D images of both samples were generated by the terahertz reconstructive technique. The images were analyzed by graphical means to determine the respective layer thicknesses. Thus, this technique offers a versatile tool for both semiconductor research and in-line inspections.
Abstract
Terahertz sub-surface imaging offers an effective solution for surface and 3D imaging because of minimal
sample preparation requirements and its ability to “see” below the surface. Another important property is the ability
to inspect on a layer-by layer basis via a non-contact route, non-destructive route. Terahertz 3D imager designed
at Applied Research and Photonics (Harrisburg, PA) has been used to demonstrate reconstructive imaging with a
resolution of less than a nanometer. Gridding with inverse distance to power equations has been described for 3D
image formation. A continuous wave terahertz source derived from dendrimer dipole excitation has been used for
reflection mode scanning in the three orthogonal directions. Both 2D and 3D images are generated for the analysis
of silver iodide quantum dots’ size parameter. Layer by layer image analysis has been outlined. Graphical analysis
was used for particle size and layer thickness determinations. The demonstrated results of quantum dot particle
size checks well with those determined by TEM micrograph and powder X-ray diffraction analysis. The reported
non-contact measurement system is expected to be useful for characterizing 2D and 3D naomaterials as well as for process development and/or quality inspection at the production line.
Abstract: Non-destructive terahertz reflection interferometry offers many advantages for sub-surface inspection such as interrogation of hidden defects and measurement of layers’ thicknesses. Here, we describe a terahertz reflection interferometry (TRI) technique for non-contact measurement of paint panels where the paint is comprised of different layers of primer, basecoat, topcoat and clearcoat. Terahertz interferograms were generated by reflection from different layers of paints on a metallic substrate. These interferograms’ peak spacing arising from the delay-time response of respective layers, allow one to model the thicknesses of the constituent layers. Interferograms generated at different incident angles show that the interferograms are more pronounced at certain angles than others. This “optimum” angle is also a function of different paint and substrate combinations. An automated angular scanning algorithm helps visualizing the evolution of the interferograms as a function of incident angle and also enables the identification of optimum reflection angle for a given paint-substrate combination. Additionally, scanning at different points on a substrate reveals that there are observable variations from one point to another of the same sample over its entire surface area. This ability may be used as a quality control tool for in-situ inspection in a production line.
Electro-optic Dendrimer is used to generate milliwatts of terahertz power by difference frequency
method. A terahertz time-domain spectrometer (THz-TDS) has been designed around this source that
exhibits wide broadband terahertz range, 0.1 to 35 THz. Examples of molecular characterization are discussed
for three common explosives and the vibrational states of Fullerenes. The explosives’ spectra are
unique for each explosive that allow detection and identification of the species. The Fullerenes C60 and
H2@C60 also exhibit distinctively different spectra and absorbance states indicating that the THz-TDS is
suitable for probing increased number of vibrational states expected from molecular vibrations.
2011 Elsevier B.V. All rights reserved.
http://thz-pacifichem.blogspot.com/
Call for Abstracts
Advances in Terahertz Spectroscopy and Imaging (#413)
THE INTERNATIONAL CHEMICAL CONGRESS OF
PACIFIC BASIN SOCIETIES
Honolulu, Hawaii, USA DECEMBER 15 - 20, 2015
Dear Colleague:
It is our great pleasure to announce a symposium on “Advances in Terahertz Spectroscopy and Imaging” at the Pacifichem 2015 in Hawaii. Please see the link above for details. Contributions are solicited addressing subjects from all walks of terahertz applications. As an emerging area of science and technology, terahertz applications, such as spectroscopy, reflectometry and imaging, have the potential for addressing some of the critical problems of the 21st century. As indicated by increased attendance and number of papers in the past, the proposed symposium will fill a gap in the technical program by attracting the terahertz spectroscopy and related communities from all over the world. While there are other spectroscopic techniques, terahertz technology provides unique information that is not available from the predecessors. Therefore, this symposium solicits papers on the advances of terahertz applications in crucial matters such as: biomedical research, early detection of skin cancer, transdermal drug delivery, biopharmaceuticals, materials for energy, conservation and forensic science, security & screening, geology and minerals, semiconductors and any other relevant areas. This symposium will present an opportunity for the exchange of knowledge in a global forum, including results and discussions of current and breakthrough terahertz techniques and their applications. Papers, including spectroscopic, reflectometry and imaging techniques on the above mentioned areas and other terahertz applications in solving important problems are welcome. Formal abstracts submission will be open from January 1 – April 3, 2015. See this link for details of submission: http://www.pacifichem.org/congress-details/abstracts/
Sincerely yours,
Anis Rahman (USA): a.rahman@arphotonics.net
Choonho Kim (S Korea): chkim1202@gmail.com
Wolfgang Jaeger (Canada): wolfgang.jaeger@ualberta.ca
Sing Kiong Nguang (New Zealand): sk.nguang@auckland.ac.nz
Yacov Shamash (USA): yacovshamash@yahoo.com
Terahertz dynamic scanning reflectometry (TDSR) was used for measuring layered materials’ deformation kinetics
spectra. Multi-layered materials are used for protective devices such as helmet and body armor. An in-situ measurement of deformation profile and other dynamic characteristics is important when such material is subjected to ballistic impacts. Current instrumentation is limited in their abilities to provide sub-surface information in a non-destructive fashion. A high sensitivity TDSR has been used to measure dynamic surface deformation characteristics in real-time (in-situ) and also at post deformation (ex-situ). Real-time ballistic deformation kinetics was captured with a high speed measurement system. The kinetics spectra was used to compute a number of crucial parameters such as deformation
length and its propagation profile, the relaxation position, and the macroscopic vibration profile. In addition, the loss of mass due to impact was quantified for accurate determination of the trauma causing energy. For non-metallic substrates, a transmitted beam was used to calibrate mass loss, a priori, of the laminate layers due to impact. Deformation kinetics information may then be used to formulate trauma diagnosis conditions from blunt hit via the Sturdivan criterion [1].
The basic difference in the proposed approach is that here diagnostic criteria are inferred by measuring the helmet itself; no need to draw blood or any biopsy from the patient.
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
This paper outlines the basic technology and economic model of the core silicon technology. Silicon is the second most abundant element on the earth’s crust but there is no specific deposit or mine for silicon.
The only source for silicon is “sand” that the earth has an abundant supply. Here we outline the basic steps of manufacturing silicon ingot and wafers. It is projected that, once produced, these products will gain immediate market access, thus creating economic activities in a reasonably short period of time. The three initial products that could stem from the basic silicon ingot are silicon wafers, for both semiconductor and solar cell applications, and optical fiber for communication. This report focuses on the essential silicon
technology to produce silicon ingot, and silicon wafer, as the first step. Finally, the historic data available for the silicon wafer consumption per year have been modeled with the well-known Bass diffusion model.
It was found that with modified parameters, the Bass model fits the historic data well and the same model allows a projection for a few years in the future. This projected economic activities, therefore, encourages a social transformation towards a technological self-sufficiency.
Keywords: Silicon technology; Bass diffusion model; Silicon wafer consumption; Social transformation;
Technological self-sufficiency
DOI: 10.31031/NRS.2022.11.000760
Abstracts and Bios of the Chief Guest, Guest of Honor, distinguished Speakers and Panelists of the 2021 AABEA-FOBANA joint Seminar in Washington DC, November 27 and 28, 2021.
Lattice dilation of metallic nickel film deposited by plasma-spraying on a ceramic layer that is also prepared by plasma-spraying, has been investigated by high resolution terahertz imaging and sequential zooming of the images to quantify the lattice parameter by graphical analysis. A metallic nickel sample
was first imaged, and its measured lattice constant was found to be in agreement with the known value.
Subsequently, four additional samples containing plasma-sprayed nickel film have also been imaged via an identical procedure. The lattice images of all samples were used for graphical analysis and quantification of the respective lattice parameters. Four samples, viz., 77, 81, 129 and 111 have been analyzed and their lattice dilation was investigated. It was found that the lattice distance (d) of these samples is in the order as, d77 < d81 < d129 < d111 and higher than the value of metallic nickel. Unit cell volume and density were also calculated for each sample from the measured lattice parameter. The density was found in the decreasing order for the 4 samples; i.e., ρρρ ρ77 > ρ81 > ρ129 > ρ111 and the density values are significantly lower than the value for nickel. To our knowledge, this is the first direct evidence of the lattice dilation of plasma-sprayed metallic nickel measured via the terahertz lattice imaging, without requiring an electron microscope. Thus, the results presented herein establish an exciting extension of camera-less, reconstructive terahertz imaging technique that produces such a clear lattice image of nickel and allows to quantify the lattice parameter. The technique, however, is a general one, applicable to any material.
Abstract— This paper demonstrates overcoming of the Abbe diffraction limit (ADL) on image resolution. Here, terahertz multispectral reconstructive imaging has been described and used for analyzing nanometer size metal lines fabricated on a silicon wafer. It has also been demonstrated that while overcoming the ADL is a required condition, it is not sufficient to achieve sub-nanometer image resolution with longer wavelengths. A nanoscanning technology has been developed that exploits the modified Beer-Lambert’s law for creating a measured reflectance data matrix and utilizes the ‘inverse distance to power equation’ algorithm for achieving 3D, sub-nanometer image resolution. The nano-lines images reported herein, were compared to SEM images. The terahertz images of 70 nm lines agreed well with the TEM images. The 14 nm lines by SEM were determined to be ~15 nm. Thus, the wavelength dependent Abbe diffraction limit on image resolution has been overcome. Layer-by-layer analysis has been demonstrated where 3D images are analyzed on any of the three orthogonal planes. Images of grains on the metal lines have also been analyzed. Unlike electron microscopes, where the samples must be in the vacuum chamber and must be thin enough for electron beam transparency, terahertz imaging is non-destructive, non-contact technique without laborious sample preparation.
Abstract:
This paper demonstrates overcoming of the Abbe diffraction limit (ADL) on image resolution. Here, terahertz multispectral reconstructive imaging has been described and used for analyzing nanometer size metal lines fabricated on a silicon wafer. It has also been demonstrated that while overcoming the ADL is a required condition, it is not sufficient to achieve sub-nanometer image resolution with longer wavelengths. A nanoscanning technology has been developed that exploits the modified Beer-Lambert’s law for creating a measured reflectance data matrix and utilizes the ‘inverse distance to power equation’ algorithm for achieving 3D, sub-nanometer image resolution. The nano-lines images reported herein, were compared to SEM images. The terahertz images of 70 nm lines agreed well with the TEM images. The 14 nm lines by SEM were determined to be 15 nm. Thus, the wavelength dependent Abbe diffraction limit on image resolution has been overcome. Layer-by-layer analysis has been demonstrated where 3D images are analyzed on any of the three orthogonal planes. Images of grains on the metal lines have also been analyzed. Unlike electron microscopes, where the samples must be in the vacuum chamber and must be thin enough for electron beam transparency, terahertz imaging is non-destructive, non-contact technique without laborious sample preparation.
Two critical nanoscale design parameters (CNDPs); namely, surface chemistry and interior compositions of poly(amidoamine) (PAMAM) dendrimers were systematically engineered to produce unique hyperpolarizable, electro-optical substrates. These electro-optically active dendritic films were demonstrated to produce high quality, continuous wave terahertz radiation when exposed to a suitable pump laser that could be used for spectrometry and molecular imaging. These dendrimer based dipole excitation (DDE) terahertz sources were used to construct a working spectrometer suitable for many practical applications including THz imaging and analysis of encapsulated hydrogen species in fullerenes.
Abstract
Terahertz spectral analysis has been conducted on epitaxially grown semiconductor structures. Epitaxially grown semiconductors are important for microelectronic and optoelectronic devices and also for integrated circuits
fabricated using semiconductors. In this paper, we report results of terahertz time-domain spectroscopy of grown
SiGe layers on Ge buffer and separately a Ge buffer that was grown on a Si <001> wafer. In particular, evolution of
the time-domain spectra as a function of thickness of both samples was investigated by the terahertz pump-probe
technique. Representative spectra were analyzed to determine the respective layers’ spectral signatures. It was found that the spectroscopic analysis uniquely identified different layers by characteristic absorbance peaks. In addition, terahertz imaging was conducted in a non-destructive, non-contact mode for detecting lattice stacking fault and dislocations. Sub-surface imaging of grown SiGe layers on Ge buffer and that of the Ge buffer grown on a Si wafer reveals interesting lattice features in both samples. A comparison with TEM images of the samples exhibits that the terahertz image reproduces the dimensions found from TEM images within the experimental error limits. In particular, 3D images of both samples were generated by the terahertz reconstructive technique. The images were analyzed by graphical means to determine the respective layer thicknesses. Thus, this technique offers a versatile tool for both semiconductor research and in-line inspections.
Abstract
Terahertz sub-surface imaging offers an effective solution for surface and 3D imaging because of minimal
sample preparation requirements and its ability to “see” below the surface. Another important property is the ability
to inspect on a layer-by layer basis via a non-contact route, non-destructive route. Terahertz 3D imager designed
at Applied Research and Photonics (Harrisburg, PA) has been used to demonstrate reconstructive imaging with a
resolution of less than a nanometer. Gridding with inverse distance to power equations has been described for 3D
image formation. A continuous wave terahertz source derived from dendrimer dipole excitation has been used for
reflection mode scanning in the three orthogonal directions. Both 2D and 3D images are generated for the analysis
of silver iodide quantum dots’ size parameter. Layer by layer image analysis has been outlined. Graphical analysis
was used for particle size and layer thickness determinations. The demonstrated results of quantum dot particle
size checks well with those determined by TEM micrograph and powder X-ray diffraction analysis. The reported
non-contact measurement system is expected to be useful for characterizing 2D and 3D naomaterials as well as for process development and/or quality inspection at the production line.
Abstract: Non-destructive terahertz reflection interferometry offers many advantages for sub-surface inspection such as interrogation of hidden defects and measurement of layers’ thicknesses. Here, we describe a terahertz reflection interferometry (TRI) technique for non-contact measurement of paint panels where the paint is comprised of different layers of primer, basecoat, topcoat and clearcoat. Terahertz interferograms were generated by reflection from different layers of paints on a metallic substrate. These interferograms’ peak spacing arising from the delay-time response of respective layers, allow one to model the thicknesses of the constituent layers. Interferograms generated at different incident angles show that the interferograms are more pronounced at certain angles than others. This “optimum” angle is also a function of different paint and substrate combinations. An automated angular scanning algorithm helps visualizing the evolution of the interferograms as a function of incident angle and also enables the identification of optimum reflection angle for a given paint-substrate combination. Additionally, scanning at different points on a substrate reveals that there are observable variations from one point to another of the same sample over its entire surface area. This ability may be used as a quality control tool for in-situ inspection in a production line.
Electro-optic Dendrimer is used to generate milliwatts of terahertz power by difference frequency
method. A terahertz time-domain spectrometer (THz-TDS) has been designed around this source that
exhibits wide broadband terahertz range, 0.1 to 35 THz. Examples of molecular characterization are discussed
for three common explosives and the vibrational states of Fullerenes. The explosives’ spectra are
unique for each explosive that allow detection and identification of the species. The Fullerenes C60 and
H2@C60 also exhibit distinctively different spectra and absorbance states indicating that the THz-TDS is
suitable for probing increased number of vibrational states expected from molecular vibrations.
2011 Elsevier B.V. All rights reserved.
http://thz-pacifichem.blogspot.com/
Call for Abstracts
Advances in Terahertz Spectroscopy and Imaging (#413)
THE INTERNATIONAL CHEMICAL CONGRESS OF
PACIFIC BASIN SOCIETIES
Honolulu, Hawaii, USA DECEMBER 15 - 20, 2015
Dear Colleague:
It is our great pleasure to announce a symposium on “Advances in Terahertz Spectroscopy and Imaging” at the Pacifichem 2015 in Hawaii. Please see the link above for details. Contributions are solicited addressing subjects from all walks of terahertz applications. As an emerging area of science and technology, terahertz applications, such as spectroscopy, reflectometry and imaging, have the potential for addressing some of the critical problems of the 21st century. As indicated by increased attendance and number of papers in the past, the proposed symposium will fill a gap in the technical program by attracting the terahertz spectroscopy and related communities from all over the world. While there are other spectroscopic techniques, terahertz technology provides unique information that is not available from the predecessors. Therefore, this symposium solicits papers on the advances of terahertz applications in crucial matters such as: biomedical research, early detection of skin cancer, transdermal drug delivery, biopharmaceuticals, materials for energy, conservation and forensic science, security & screening, geology and minerals, semiconductors and any other relevant areas. This symposium will present an opportunity for the exchange of knowledge in a global forum, including results and discussions of current and breakthrough terahertz techniques and their applications. Papers, including spectroscopic, reflectometry and imaging techniques on the above mentioned areas and other terahertz applications in solving important problems are welcome. Formal abstracts submission will be open from January 1 – April 3, 2015. See this link for details of submission: http://www.pacifichem.org/congress-details/abstracts/
Sincerely yours,
Anis Rahman (USA): a.rahman@arphotonics.net
Choonho Kim (S Korea): chkim1202@gmail.com
Wolfgang Jaeger (Canada): wolfgang.jaeger@ualberta.ca
Sing Kiong Nguang (New Zealand): sk.nguang@auckland.ac.nz
Yacov Shamash (USA): yacovshamash@yahoo.com
Terahertz dynamic scanning reflectometry (TDSR) was used for measuring layered materials’ deformation kinetics
spectra. Multi-layered materials are used for protective devices such as helmet and body armor. An in-situ measurement of deformation profile and other dynamic characteristics is important when such material is subjected to ballistic impacts. Current instrumentation is limited in their abilities to provide sub-surface information in a non-destructive fashion. A high sensitivity TDSR has been used to measure dynamic surface deformation characteristics in real-time (in-situ) and also at post deformation (ex-situ). Real-time ballistic deformation kinetics was captured with a high speed measurement system. The kinetics spectra was used to compute a number of crucial parameters such as deformation
length and its propagation profile, the relaxation position, and the macroscopic vibration profile. In addition, the loss of mass due to impact was quantified for accurate determination of the trauma causing energy. For non-metallic substrates, a transmitted beam was used to calibrate mass loss, a priori, of the laminate layers due to impact. Deformation kinetics information may then be used to formulate trauma diagnosis conditions from blunt hit via the Sturdivan criterion [1].
The basic difference in the proposed approach is that here diagnostic criteria are inferred by measuring the helmet itself; no need to draw blood or any biopsy from the patient.
More from Applied Research and Photonics, Inc. (20)
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
UiPath Test Automation using UiPath Test Suite series, part 4DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
The UiPath Test Manager overview with SAP heatmap webinar offers a concise yet comprehensive exploration of the role of a Test Manager within SAP environments, coupled with the utilization of heatmaps for effective testing strategies.
Participants will gain insights into the responsibilities, challenges, and best practices associated with test management in SAP projects. Additionally, the webinar delves into the significance of heatmaps as a visual aid for identifying testing priorities, areas of risk, and resource allocation within SAP landscapes. Through this session, attendees can expect to enhance their understanding of test management principles while learning practical approaches to optimize testing processes in SAP environments using heatmap visualization techniques
What will you get from this session?
1. Insights into SAP testing best practices
2. Heatmap utilization for testing
3. Optimization of testing processes
4. Demo
Topics covered:
Execution from the test manager
Orchestrator execution result
Defect reporting
SAP heatmap example with demo
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Search and Society: Reimagining Information Access for Radical FuturesBhaskar Mitra
The field of Information retrieval (IR) is currently undergoing a transformative shift, at least partly due to the emerging applications of generative AI to information access. In this talk, we will deliberate on the sociotechnical implications of generative AI for information access. We will argue that there is both a critical necessity and an exciting opportunity for the IR community to re-center our research agendas on societal needs while dismantling the artificial separation between the work on fairness, accountability, transparency, and ethics in IR and the rest of IR research. Instead of adopting a reactionary strategy of trying to mitigate potential social harms from emerging technologies, the community should aim to proactively set the research agenda for the kinds of systems we should build inspired by diverse explicitly stated sociotechnical imaginaries. The sociotechnical imaginaries that underpin the design and development of information access technologies needs to be explicitly articulated, and we need to develop theories of change in context of these diverse perspectives. Our guiding future imaginaries must be informed by other academic fields, such as democratic theory and critical theory, and should be co-developed with social science scholars, legal scholars, civil rights and social justice activists, and artists, among others.
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Let's dive deeper into the world of ODC! Ricardo Alves (OutSystems) will join us to tell all about the new Data Fabric. After that, Sezen de Bruijn (OutSystems) will get into the details on how to best design a sturdy architecture within ODC.
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
Software Delivery At the Speed of AI: Inflectra Invests In AI-Powered QualityInflectra
In this insightful webinar, Inflectra explores how artificial intelligence (AI) is transforming software development and testing. Discover how AI-powered tools are revolutionizing every stage of the software development lifecycle (SDLC), from design and prototyping to testing, deployment, and monitoring.
Learn about:
• The Future of Testing: How AI is shifting testing towards verification, analysis, and higher-level skills, while reducing repetitive tasks.
• Test Automation: How AI-powered test case generation, optimization, and self-healing tests are making testing more efficient and effective.
• Visual Testing: Explore the emerging capabilities of AI in visual testing and how it's set to revolutionize UI verification.
• Inflectra's AI Solutions: See demonstrations of Inflectra's cutting-edge AI tools like the ChatGPT plugin and Azure Open AI platform, designed to streamline your testing process.
Whether you're a developer, tester, or QA professional, this webinar will give you valuable insights into how AI is shaping the future of software delivery.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Knowledge engineering: from people to machines and back
247th acs national meeting, dallas, tx abstracts2 view™
1. 247th ACS National Meeting, Dallas, TX Abstracts2View™:
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282 - Emerging terahertz imaging for sub-surface biomedical tomography
Authors: Anis Rahman, Aunik K Rahman
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Division: BIOT: Division of Biochemical Technology
Dallas Meeting
Date/Time: Tuesday, March 18, 2014 - 06:00 PM
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Session Info: Poster Session (06:00 PM - 08:00 PM)
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Room: Hall E
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280 - Fick's law characterization of diffusion properties of bio membranes by terahertz reflectometry
Authors: Dr. Anis Rahman, Aunik K Rahman
Division: BIOT: Division of Biochemical Technology
Date/Time: Tuesday, March 18, 2014 - 06:00 PM
Session Info: Poster Session (06:00 PM - 08:00 PM)
Location: Dallas Convention Center
Room: Hall E
3
203 - Terahertz investigation of adjuvant and recombinant HPV vaccine candidate fusion protein
Authors: Dr. Anis Rahman, Aunik Rahman, Ruby Date, Trevor Broadt
Division: ANYL: Division of Analytical Chemistry
Date/Time: Wednesday, March 19, 2014 - 02:30 PM
Session Info: Advances in Analytical Spectroscopy (01:00 PM - 03:55 PM)
Location: Hyatt Regency Dallas
Room: Cumberland D
4
12 - Art and science of a start-up company in light of the JOBS Act
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