Sanjeev Kumar
Curriculum Vitae (Brief CV)
✔Young international Scientist/Post-Doc Fellow in Shanghai Institute of Applied Physics, Shanghai, China from 28th Feb. 2011 - Present ( http://www.sinap.ac.cn )
✔ Assistant Professor (HOD, Co-ordinator exams) in School of Basic Sciences, Shiva Institute of Eng. And Technology, Bilaspur (H.P.), India (Affilated to H. P. U. Shimla) from 09th August 2010 to 17th Febraury2011. ( http://www.siethp.in )
✔ Teaching Assistant in School of Physics and Materials Science, Thapar University, Patiala, Punjab, India from 21st July 2009 to 30th June 2010. ( http://www.thapar.edu )
✔ Senior Research Fellow in School of Physics and Materials Science, Thapar University, Patiala, Punjab, India from 24th October 2008 to 20th July 2009.
✔ Junior Research Fellow in School of Physics and Materials Science, Thapar University, Patiala, Punjab, India from from 24th October 2006 to 23rd October 2008.
I am working as a Post Doc fellow in Shanghai Institute of Applied Physics, Shanghai from February 2011 to till date. Here, I am working on the Phenomenas which takes place in intermediate energy heavy-ion collisions such as density dependence of symmetry energy, Multifragmentation, elliptical flow and nuclear stopping. The intense study of these phenomenas are very useful not only for the nuclear physicians, but for all the community to understand the hidden aspects at the time of expansion of the universe.
The Thrust research areas are:
Intermediate energy HIC’s: Isospin effects
Many Body Theory
Dynamical Models of Nuclear Fragmentation Reactions
Equation of state of Nuclear Matter
Quark- Gluon Plasma
Sub threshold Particle Production
Effect of Symmetry energy on nuclear matter.
Effect of different n-n, n-p, p-p cross sections on nuclear matter
Direct reactions and Hadronic matter
Some of the Useful links to the Theoretical nuclear Physics Work:
HEAVY ION COLLISIONS
Symmetry Energy Project:
http://groups.nscl.msu.edu/hira/sep.htm
Isospin dependent quantum molecular dynamics model IQMD:
http://www.imqmd.com/Article/ShowInfo.asp?InfoID=64
ImQMD model and its applications in HICs:
http://www.imqmd.com/income/zhang1.pdf
Publications with QMD:
http://www.imqmd.com/wangning/qmd.html
nuclear equation of state the density dependent symmetry energy:
http://www.imqmd.com/income/RIB05-lizhuxia.pdf
Supervisors: Dr. Suneel Kumar, Sanjeev Kumar(Ph.D Thesis Link), and Prof. Yu Gang Ma
Phone: +862139194783
Address: Dr. Sanjeev Kumar C/O Prof. Y. G. Ma
Young International Scientist Fellow
Division of Nuclear Physics
Shanghai INstitute of Applied Physics(SINAP), CAS
2019 Jia-Luo Road, Shanghai, China
✔Young international Scientist/Post-Doc Fellow in Shanghai Institute of Applied Physics, Shanghai, China from 28th Feb. 2011 - Present ( http://www.sinap.ac.cn )
✔ Assistant Professor (HOD, Co-ordinator exams) in School of Basic Sciences, Shiva Institute of Eng. And Technology, Bilaspur (H.P.), India (Affilated to H. P. U. Shimla) from 09th August 2010 to 17th Febraury2011. ( http://www.siethp.in )
✔ Teaching Assistant in School of Physics and Materials Science, Thapar University, Patiala, Punjab, India from 21st July 2009 to 30th June 2010. ( http://www.thapar.edu )
✔ Senior Research Fellow in School of Physics and Materials Science, Thapar University, Patiala, Punjab, India from 24th October 2008 to 20th July 2009.
✔ Junior Research Fellow in School of Physics and Materials Science, Thapar University, Patiala, Punjab, India from from 24th October 2006 to 23rd October 2008.
I am working as a Post Doc fellow in Shanghai Institute of Applied Physics, Shanghai from February 2011 to till date. Here, I am working on the Phenomenas which takes place in intermediate energy heavy-ion collisions such as density dependence of symmetry energy, Multifragmentation, elliptical flow and nuclear stopping. The intense study of these phenomenas are very useful not only for the nuclear physicians, but for all the community to understand the hidden aspects at the time of expansion of the universe.
The Thrust research areas are:
Intermediate energy HIC’s: Isospin effects
Many Body Theory
Dynamical Models of Nuclear Fragmentation Reactions
Equation of state of Nuclear Matter
Quark- Gluon Plasma
Sub threshold Particle Production
Effect of Symmetry energy on nuclear matter.
Effect of different n-n, n-p, p-p cross sections on nuclear matter
Direct reactions and Hadronic matter
Some of the Useful links to the Theoretical nuclear Physics Work:
HEAVY ION COLLISIONS
Symmetry Energy Project:
http://groups.nscl.msu.edu/hira/sep.htm
Isospin dependent quantum molecular dynamics model IQMD:
http://www.imqmd.com/Article/ShowInfo.asp?InfoID=64
ImQMD model and its applications in HICs:
http://www.imqmd.com/income/zhang1.pdf
Publications with QMD:
http://www.imqmd.com/wangning/qmd.html
nuclear equation of state the density dependent symmetry energy:
http://www.imqmd.com/income/RIB05-lizhuxia.pdf
Supervisors: Dr. Suneel Kumar, Sanjeev Kumar(Ph.D Thesis Link), and Prof. Yu Gang Ma
Phone: +862139194783
Address: Dr. Sanjeev Kumar C/O Prof. Y. G. Ma
Young International Scientist Fellow
Division of Nuclear Physics
Shanghai INstitute of Applied Physics(SINAP), CAS
2019 Jia-Luo Road, Shanghai, China
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Papers by Sanjeev Kumar
an isospin-dependent quantum molecular dynamics model. A single ratio of neutrons and protons is compared with
the experimental data of Famiano et al. [Phys. Rev. Lett. 97, 052701 (2006)] We have also performed a comparison
for the double ratio with experimental as well as different theoretical results of Boltzmann-Uehling-Uhlenbeck
in 1997, Isospin-dependent Boltzmann-Uehling-Uhlenbeck in 2004, Boltzmann-Nordeim-Vlasov, and Improved
Quantum Molecular Dynamics models. It is found that the double ratio predicts the softness of symmetry energy,
which is a little underestimated in the single ratio. Furthermore, the study of the single ratio is extended for
different kinds of fragments, while the double ratio is extended for different neutron-rich isotopes of Sn.
Talks by Sanjeev Kumar
an isospin-dependent quantum molecular dynamics model. A single ratio of neutrons and protons is compared with
the experimental data of Famiano et al. [Phys. Rev. Lett. 97, 052701 (2006)] We have also performed a comparison
for the double ratio with experimental as well as different theoretical results of Boltzmann-Uehling-Uhlenbeck
in 1997, Isospin-dependent Boltzmann-Uehling-Uhlenbeck in 2004, Boltzmann-Nordeim-Vlasov, and Improved
Quantum Molecular Dynamics models. It is found that the double ratio predicts the softness of symmetry energy,
which is a little underestimated in the single ratio. Furthermore, the study of the single ratio is extended for
different kinds of fragments, while the double ratio is extended for different neutron-rich isotopes of Sn.