Advanced Computational Materials Science: Application to Fusion and Generatio...
CV_Andreev_2016-2
1. Valeri
Andreev
9,
rue
des
Boudines
1217
Meyrin
Switzerland
+41
76
682
01
95
Valeri.Andreev@cern.ch
CORE COMPETENCIES
Research
experience
• Over
20
years
of
experience
with
tracking
devices
(drift
chambers,
silicon
detectors,
cathode
strip
chambers)
and
recently
with
calorimeters
• Many
(>30)
physics
analysis
papers
with
decisive
contribution.
Results:
the
first
measurement
of
the
beauty
production
in
two-‐photon
interactions
• Many
(24)
talks
at
international
conferences,
including
review
and
invited
talks
Software
development
and
programming
• Advanced
experience
in
software
development
in
large
high
energy
physics
experiments
(simulation,
reconstruction,
alignment,
analysis)
• Basic
knowledge
of
Python,
HTML,
SQL
Coordination
• CMS
HGCAL
simulation
group
from
2013
up-‐to-‐now
• CMS
muon
(CSC)
chambers
commissioning
(2002
–
2007)
• Monte
Carlo
production
team
of
the
L3
experiment
• L3
b-‐oscillations
analysis
group,
two-‐photon
physics
group
• 5
PhD
defended
under
my
supervision
EXPERIENCES
Since
1989
Researcher
at
CERN
2013
-‐
2016
Software
coordinator
:
CERN,
HGCAL
Project
2001
-‐
2013
Staff
Research
Associate
II
-‐
IV
:
UCLA,
University
of
California
at
Los
Angeles
2002
-‐
2003
Scientific
Associate
:
CERN
1996
-‐
2001
Senior
Research
Associate
:
LSU,
Louisiana
State
University
1992
-‐
1995
Visiting
Scientist
:
MIT,
Boston
and
ETH,
Zurich
1983
–
1995
Researcher
Scientist
:
PNPI,
Petersburg
Nuclear
Physics
Institute,
St
Petersburg
EDUCATION
1987
Ph.D
Particle
Physics,
Petersburg
Nuclear
Physics
Institute
(PNPI)
1983
Master
Nuclear
Physics,
St
Petersburg
Technical
University
(SPTU)
LANGUAGES
Russian:
mother
tongue
-‐
English
:
full
professional
proficiency
French:
spoken
Senior
Researcher
Ph.D
in
Particle
Physics
Solid
Experience
in
Particle
Physics
English
/
french
/
russian
2.
Since
July
2013
2001
-‐2013
1996
–
2001
1992
–
1995
1983
-‐
1987
RESEARCH HISTORY
CMS
High
Granularity
Calorimeter
(HGCAL)
project,
led
by
Prof.
James
Virdee
(Imperial
College
London,
UK)).
Coordinating
HGCAL
simulation.
Direct
contribution
to
HGCAL
geometry
model,
local
reconstruction
(rechits),
energy
calibration
and
software
validation
for
HGCAL
simulation
in
the
CMSSW
framework.
Working
on
a
muon
identification
with
HGCAL
calorimeter.
UCLA,
Prof.
David
B.
Cline
group.
The
physics
program
of
the
CMS
experiment
at
LHC.
I
combined
analysis
studies
with
a
work
on
installation
and
support
of
the
CSC
muon
chambers
and
responsibilities
in
the
software
development.
CMS/CSC.
Contributions
into
the
CMS
magnetic
field
simulation,
CSC
chambers
receiving,
installation
and
commissioning,
CSC
gas
system
operations,
proof
of
principle
for
CSC
hardware
alignment
system,
study
of
the
CMS
physics
potential
for
inclusive
beauty
production
in
proton-‐proton
collisions
at
LHC,
measurement
of
the
b-‐jet
production
(
JHEP
02
(2012)
084).
“Higgs”
search
in
3b
events
(CMS
AN-‐2013/102).
Dark
matter
search
at
LHC.
Published
review
on
“Accelerator
constraints
on
dark
matter"
in
New
Astronomy
Reviews
49
(2005)
163-‐167.
Two
invited
talks
at
Dark
Matter
symposiums
of
2004
and
2012.
LSU,
Prof.
Roger
R.
McNeil
group.
Two-‐photon
physics
at
LEP
collider,
with
L3.
The
charm
production
cross
section
measurement,
Phys.
Lett.B453
(1999)
83.
For
the
first
time
in
two-‐photon
interactions
the
beauty
production
has
been
measured,
Phys.
Lett.
B503
(2001)
10),
Phys.
Lett.
B619
(2005)
71.
The
first
measurement
of
the
energy
dependence
of
charm
production
in
two-‐
photon
collisions
(Phys.
Lett.
B514
(2001)
19).
MIT,
Prof.
Samuel
C.C.
Ting;
ETH,
Prof.
Martin
Pohl.
Analysis
of
the
B-‐B
oscillations
with
the
L3
detector.
I
wrote
the
code
for
primary
and
secondary
vertex
reconstruction
and
performed
complicated
analysis
of
the
B-‐meson
oscillations.
Two
papers
published,
Phys.
Lett.
B383
(1996)
487;
Eur.
Phys.
J
C
5,(1998)
195.
My
contribution
has
been
decisive.
Since
1988
I
work
in
the
high
energy
physics.
PNPI,
Dr.
V.V.
Sarantsev.
Work
in
the
bubble
chamber
group,
the
experiments
on
pd-‐interaction
in
the
energy
range
0.6-‐1.0
GeV.
My
PhD
thesis
was
based
on
these
studies.
Conference
talks
24
talks
at
International
Conferences
(http://andreev.home.cern.ch/andreev/talks.html).