Subhasis Samanta
Subhasis Samanta
Assistant Professor
Dr. Subhasis Samanta is currently working as an Assistant Professor-I in the Department of Physics, School of Applied Sciences, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar, India. He has 14 years of research experience and more than two years of teaching experience. He completed B. Sc. in physics (hons) in 2007 and M.Sc. in physics in 2009 from University of Calcutta, Kolkata. He completed his Ph.D. in physics in 2017 from University of Calcutta (worked at Bose Institute kolkata). He visited Justus-Liebig University of Giessen, Germany in 2016. In 2017 he joined as a postdoctoral fellow at National Institute of Science Education and Research (NISER), Bhubaneswar, Odisha. He did his second postdoc at Jan Kochanowski University, Kielce, Poland availing ULAM scholarship from Polish National Agency for Academic Exchange (NAWA), Poland. He published more than 36 research articles in peer reviewed journals of international repute. His research field is High Energy Nuclear Physics.
Profile Links
Email :
[email protected]
Scopus Id :
56366089100
Google Scholar :
https://scholar.google.co.in/citations?user=fZ8ZgyIAAAAJ&hl=en
Social Links
Educational Qualification
PDF from National Institute of Science Education and Research (NISER), Bhubaneswar, Odisha.
PDF fromJan Kochanowski University, Kielce, Poland
Projects
Title: Studying the properties of hadron resonance gas at finite temperature and chemical potential Funding Agency: Polish National Agency for Academic Exchange (NAWA), Poland Amount: 252000 PLN (Rs ∼ 50 Lakhs) Duration: 2 Y (01/01/2020 – 31/12/2021)
Awards & Honours
- Ph.D. in Physics from Bose Institute, Kolkata, West Bengal
Projects
Title: Studying the properties of hadron resonance gas at finite temperature and chemical potential Funding Agency: Polish National Agency for Academic Exchange (NAWA), Poland Amount: 252000 PLN (Rs ∼ 50 Lakhs) Duration: 2 Y (01/01/2020 – 31/12/2021)
Awards & Honours
- Ulam Scholarship from the Polish National Agency for Academic Exchange (NAWA), Poland (2020-2021)
- Dr. D.S. Kothari Postdoctoral Fellowship from University Grants Commission (UGC) (2019)
- Full financial support from Science & Engineering Research Board (SERB), Government of India in the scheme “International Travel Support - Young Scientist” for giving a talk at Hot Quarks (September 7-14, 2018) held in ”Texel Island, Netherlands”
- Hic for FAIR guest stipend from Justus-Liebig University of Giessen, Germany (2016)
- JRF+SRF from Council of Scientific and Industrial Research (CSIR), Government of India (2010-2015)
Journals/Conferences :
1. Role of bound states and resonances in scalar QFT at nonzero temperature”, Subhasis Samanta, Francesco Giacosa,
Phys. Rev. D 107, 036001 (2023), [Publisher: American Physical Society, USA], e-Print: 2110.14752 [hep-ph].
2. “Quantum expression for the electrical conductivity of massless quark matter and of the hadron resonance gas in the presence of a magnetic field”, Jayanta Dey, Subhasis Samanta, Sabyasachi Ghosh, and Sarthak Satapathy, Phys. Rev. C, 106, 044914 (2022), e-Print: 2112.04226 [hep-ph], [Publisher: American Physical Society, USA].
3. “Impact of momentum resolution on factorial moments due to power-law correlations between particles”, Subhasis Samanta, Tobiasz Czopowicz, Marek Gazdzicki, J. Phys. G 48, 105106 (2021), e-Print: 2105.01763 [nucl-th].
4. “Multiplicity dependence of freezeout scenarios in pp collisions at s = 7 TeV”, Susil Kumar Panda, Sandeep Chatterjee, Ajay Kumar Dash, Bedangadas Mohanty, Rita Paikaray, Subhasis Samanta and Ranbir Singh, Phys. Rev. C, 104, 064905 (2021), e-Print: 2112.04226 [hep-ph].
5. “Scaling of factorial moments in cumulative variables”, Subhasis Samanta, Tobiasz Czopowicz, Marek Gazdzicki, Nucl. Phys. A 1015, 122299 (2021), e-Print: 2105.00344 [nucl-th].
6. “QFT treatment of a bound state in a thermal gas”, Subhasis Samanta, Francesco Giacosa, Phys. Rev. D, 102, 116023 (2020), e-Print: 2009.13547 [hep-ph].
7. “Exploring the hadron resonance gas phase on the QCD phase diagram”, Subhasis Samanta, Sandeep Chatterjee, Bedangadas Mohanty, J. Phys. G 46, 065106 (2019), e-Print: arXiv:1803.03844 [hep-ph].
8. “Finite size effect of hadronic matter on its transport coefficients”, Subhasis Samanta, Sabyasachi Ghosh, Bedangadas Mohanty, J. Phys. G 45, 075101 (2018), e-Print: arXiv:1706.07709 [hep-ph].
9. “Interacting hadron resonance gas model in K-matrix formalism”, Ashutosh Dash, Subhasis Samanta, Bedangadas Mohanty, Phys. Rev. C, 97, 055208 (2018), e-Print: arXiv:1802.04998 [nucl-th].
10. “Criticality in a Hadron Resonance Gas model with the van der Waals interaction,” Subhasis Samanta and Bedangadas Mohanty, Phys. Rev. C, 97, 015201 (2018), e-Print: arXiv:1709.04446 [hep-ph].
Books :
1. Study of net-proton fluctuations in Au-Au collisions with CBM,” Subhasis Samanta, R. Singh, and Bedangadas Mohanty, CBM Progress Report 2018 , ISBN: 978-3-9815227-6-1.
2. Thermal di-muons at FAIR energy,” Subhasis Samanta, S. Chattopadhyay, Supriya Das, and Sanjay K. Ghosh, CBM Progress Report 2014 , ISBN: 978-3-9815227-2-3.
3. An estimation of the thermal di-muon contribution at FAIR energies, Subhasis Samanta, P. P. Bhaduri, S. Chattopadhyay, Supriya Das, and Sanjay K. Ghosh, CBM Progress Report 2013 , ISBN: 978-3-9815227-1-6.
4. Test of prototype CBM detector components with proton beams at COSY,” J. Heuser, R. Adak, T. Balog, S. Chattopadhyay, D. Dementyev7 , A. Dubey, D. Emschermann,J. Eschke, V. Friese, P. Ghosh, T. Heinz, V. Khomyakov, P. Koczon, P. Larionov, J. Lehnert, Momot, W.F.J. M ller, W. Niebur, A. Oancea, F. Uhlig, J. Saini, Subhasis Samanta et al, CBM Progress Report 2014 , ISBN: 978-3-9815227-2-3.
5. “Testing of a real-size GEM prototype at COSY,” Rama Prasad Adak, Subhasis Samanta, A. K. Dubey, J. Saini, S. Chattopadhyay et al, CBM Progress Report 2014 , ISBN: 978-3-9815227-2-3.
6. Test of a triple GEM chamber with neutrons using an alpha beam at the VECC cyclotron,” A. K. Dubey, J. Saini, R. Ravishankar, T. Bandopadhyay, P. P. Bhaduri,
R. Adak, Subhasis Samanta et al, CBM Progress Report 2013 , ISBN: 978-3-9815227-1-6."
1. Role of bound states and resonances in scalar QFT at nonzero temperature”, Subhasis Samanta, Francesco Giacosa,
Phys. Rev. D 107, 036001 (2023), [Publisher: American Physical Society, USA], e-Print: 2110.14752 [hep-ph].
2. “Quantum expression for the electrical conductivity of massless quark matter and of the hadron resonance gas in the presence of a magnetic field”, Jayanta Dey, Subhasis Samanta, Sabyasachi Ghosh, and Sarthak Satapathy, Phys. Rev. C, 106, 044914 (2022), e-Print: 2112.04226 [hep-ph], [Publisher: American Physical Society, USA].
3. “Impact of momentum resolution on factorial moments due to power-law correlations between particles”, Subhasis Samanta, Tobiasz Czopowicz, Marek Gazdzicki, J. Phys. G 48, 105106 (2021), e-Print: 2105.01763 [nucl-th].
4. “Multiplicity dependence of freezeout scenarios in pp collisions at s = 7 TeV”, Susil Kumar Panda, Sandeep Chatterjee, Ajay Kumar Dash, Bedangadas Mohanty, Rita Paikaray, Subhasis Samanta and Ranbir Singh, Phys. Rev. C, 104, 064905 (2021), e-Print: 2112.04226 [hep-ph].
5. “Scaling of factorial moments in cumulative variables”, Subhasis Samanta, Tobiasz Czopowicz, Marek Gazdzicki, Nucl. Phys. A 1015, 122299 (2021), e-Print: 2105.00344 [nucl-th].
6. “QFT treatment of a bound state in a thermal gas”, Subhasis Samanta, Francesco Giacosa, Phys. Rev. D, 102, 116023 (2020), e-Print: 2009.13547 [hep-ph].
7. “Exploring the hadron resonance gas phase on the QCD phase diagram”, Subhasis Samanta, Sandeep Chatterjee, Bedangadas Mohanty, J. Phys. G 46, 065106 (2019), e-Print: arXiv:1803.03844 [hep-ph].
8. “Finite size effect of hadronic matter on its transport coefficients”, Subhasis Samanta, Sabyasachi Ghosh, Bedangadas Mohanty, J. Phys. G 45, 075101 (2018), e-Print: arXiv:1706.07709 [hep-ph].
9. “Interacting hadron resonance gas model in K-matrix formalism”, Ashutosh Dash, Subhasis Samanta, Bedangadas Mohanty, Phys. Rev. C, 97, 055208 (2018), e-Print: arXiv:1802.04998 [nucl-th].
10. “Criticality in a Hadron Resonance Gas model with the van der Waals interaction,” Subhasis Samanta and Bedangadas Mohanty, Phys. Rev. C, 97, 015201 (2018), e-Print: arXiv:1709.04446 [hep-ph].
Books :
1. Study of net-proton fluctuations in Au-Au collisions with CBM,” Subhasis Samanta, R. Singh, and Bedangadas Mohanty, CBM Progress Report 2018 , ISBN: 978-3-9815227-6-1.
2. Thermal di-muons at FAIR energy,” Subhasis Samanta, S. Chattopadhyay, Supriya Das, and Sanjay K. Ghosh, CBM Progress Report 2014 , ISBN: 978-3-9815227-2-3.
3. An estimation of the thermal di-muon contribution at FAIR energies, Subhasis Samanta, P. P. Bhaduri, S. Chattopadhyay, Supriya Das, and Sanjay K. Ghosh, CBM Progress Report 2013 , ISBN: 978-3-9815227-1-6.
4. Test of prototype CBM detector components with proton beams at COSY,” J. Heuser, R. Adak, T. Balog, S. Chattopadhyay, D. Dementyev7 , A. Dubey, D. Emschermann,J. Eschke, V. Friese, P. Ghosh, T. Heinz, V. Khomyakov, P. Koczon, P. Larionov, J. Lehnert, Momot, W.F.J. M ller, W. Niebur, A. Oancea, F. Uhlig, J. Saini, Subhasis Samanta et al, CBM Progress Report 2014 , ISBN: 978-3-9815227-2-3.
5. “Testing of a real-size GEM prototype at COSY,” Rama Prasad Adak, Subhasis Samanta, A. K. Dubey, J. Saini, S. Chattopadhyay et al, CBM Progress Report 2014 , ISBN: 978-3-9815227-2-3.
6. Test of a triple GEM chamber with neutrons using an alpha beam at the VECC cyclotron,” A. K. Dubey, J. Saini, R. Ravishankar, T. Bandopadhyay, P. P. Bhaduri,
R. Adak, Subhasis Samanta et al, CBM Progress Report 2013 , ISBN: 978-3-9815227-1-6."