Publications

Journal Publications

  1. "Probing quantum decoherence at Belle II and LHCb": to appear in JHEP: arXiv:2402.02470: Ashutosh Kumar Alok, Subhashish Banerjee, Neetu Raj Singh Chundawat, S. Uma Sankar.
  2. "Protecting quantum correlations of negative quantum states using weak measurement under non-Markovian noise": Phys. Scr. 99, 035116 (2024): arXiv:2309.06134: Jai Lalita, Subhashish Banerjee.
  3. "Thermalization Phenomena in Quenched Quantum Brownian Motion in De Sitter Space": Nuclear Phys. B, 996, 116368 (2023): arXiv:2104.10692: Subhashish Banerjee, Sayantan Choudhury, Satyaki Chowdhury, Johannes Knaute, Sudhakar Panda, K. Shirish.
  4. "On the eternal non-Markovianity of non-unital quantum channels": Int. Jr. of Quantum Information: 22, 2350039 (2024): https://doi.org/10.1142/S0219749923500399: arXiv:2203.10625: U. Shrikant, R. Srikanth, Subhashish Banerjee.
  5. "Quantum chaos in the Dicke model and its variants": Proceedings of Royal Society A, 479, 20230431 (2023): arXiv:2305.15505: Devvrat Tiwari, Subhashish Banerjee.
  6. "Towards realization of universal quantum teleportation using weak measurements": Annalen der Physik: DOI: 10.1002/andp.202300392: arXiv:2307.09231: Vivek Balasaheb Sabale, Atul Kumar, Subhashish Banerjee.
  7. "Impcat of non-Markovian quantum Brownian motion on quantum batteries": Phys. Rev. A 109, 012224 (2024): arXiv:2308.14572: Gourab Bhanja, Devvrat Tiwari, Subhashish Banerjee.
  8. "Quantum Hypergraph States in Noisy Quantum Channels": Physica Scripta, 98, 115113 (2023): arXiv:2110.08829: Supriyo Dutta, Subhashish Banerjee, Monika Rani.
  9. "Quantum speed of evolution of neutral mesons": Eur. Phys. J. Plus 138, 597 (2023). https://doi.org/10.1140/epjp/s13360-023-04228-2 Subhashish Banerjee, K. G. Paulson.
  10. "Impact of non-Markovian evolution on characterizations of quantum thermodynamics": Front. Quantum. Sci. Technol. 2, 1207552 (2023): arXiv:2305.10622: Devvrat Tiwari, Subhashish Banerjee.
  11. "Harnessing quantumness of states using discrete Wigner functions under (non)-Markovian quantum channels": Annalen der Physik, 202300139 (2023): https://doi.org/10.1002/andp.202300139: arXiv:2303.05291: Jai Lalita, K. G. Paulson, Subhashish Banerjee.
  12. "Characterization of Quantumness of non-Gaussian states under the influence of Gaussian channel": Quantum Information Processing: 22, 298 (2023): arXiv:2212.11510: Ramniwas Meena, Subhashish Banerjee.
  13. "A study of the quasi-probability distributions of the Tavis-Cummings model under different quantum channels": Ann. of Phys. 455, 169390 (2023): arXiv:2208.04037: Devvrat Tiwari, Subhashish Banerjee.
  14. "Thermodynamics of one and two-qubit nonequilibrium heat engines running between squeezed thermal reservoirs": Physica A: 623, 128832 (2023): https://doi.org/10.1016/j.physa.2023.128832: arXiv:2209.06433: Ashutosh Kumar, Trilochan Bagarti, Sourabh Lahiri, Subhashish Banerjee.
  15. "Quantum correlations and speed limit of central spin system": Annalen der Physik DOI:10.1002/andp.202200452: arXiv:2205.13195: Devvrat Tiwari, K. G Paulson, Subhashish Banerjee.
  16. "Quantum speed limit time: role of coherence as a dynamical witness to distinguish multi-qubit entangled states": J. Phys. A: Math. Theor. 55, 505302 (2022): arXiv:2202.08078: K. G. Paulson, Subhashish Banerjee.
  17. "Phase covariant channel: Quantum speed limit of evolution": Annalen der Physik https://doi.org/10.1002/andp.202200199:arXiv:2204.08149: Riya Baruah, K. G. Paulson, Subhashish Banerjee.
  18. "Dynamics of two central spins immersed in spin baths": Phys. Rev. A: 106, 032435 (2022): arXiv:2205.04135: Devvrat Tiwari, Shounak Datta, Samyadeb Bhattacharya, Subhashish Banerjee.
  19. "Non-uniform magnetic field as a booster for quantum speed: faster quantum information pro- cessing": New Journal of Physics 24, 085001 (2022)(https://doi.org/10.1088/1367-2630/ac84f9), arXiv:2112.04519: Srishty Aggarwal, Subhashish Banerjee, Arindam Ghosh, Banibrata Mukhopadhyay.
  20. "Thermal radiation in curved spacetime using influence functional formalism": Phys. Rev. D 105, 045020 (2022): arXiv:2110.01264: Chiranjeeb Singha, Subhashish Banerjee.
  21. "Local description of S-matrix in quantum field theory in curved spacetime using Riemann-normal coordinate": Euro. Phys. J. Plus: 136, 1064 (2021): Susobhan Mandal, Subhashish Banerjee.
  22. "Revisiting the quantum open system dynamics of central spin model": Quanta Sudarshan volume 10, 55 (2021): arXiv:2109.05775: Samyadeb Bhattacharya, and Subhashish Banerjee.
  23. "Evolution of projective measurements under qubit channels and associated energy cost": Phys. Rev. A 104, 042608 (2021): arXiv:2103.00974: Javid Naikoo, Subhashish Banerjee, A. K. Pan, Sibasish Ghosh.
  24. "On the non-Markovianity of quantum semi-Markov processes": Quantum Information Processing 20, 399 (2021): arXiv:2012.11219: Shrikant Utagi, Subhashish Banerjee, R. Srikanth.
  25. "Experimental Snapshot Verification of non-Markovianity with Unknown System-Probe Coupling": Phys. Rev. A 106, 032603 (2022): arXiv:2107.07876: Henri Lyyra, Olli Siltanen, Jyrki Piilo, Subhashish Banerjee, Tom Kuusela.
  26. "The effect of quantum memory on quantum speed limit time": Quantum Information Processing 21, 335 (2022): arXiv:2107.03306: K. G Paulson, Subhashish Banerjee, R. Srikanth.
  27. "Exploring the extent of validity of quantum work fluctuation theorems in the presence of weak measurements": Quantum Information Processing 20, 372 (2021): arXiv:2009.06249: Sourabh Lahiri, Subhashish Banerjee, and A. M. Jayannavar.
  28. "Indirect detection of Cosmological Constant from large N entangled open quantum system": Ann. of Phys. 443, 168941 (2022): arXiv:2004.13058: Subhashish Banerjee, Sayantan Choudhury, Satyaki Chowdhury, Rathindra Nath Das, Nitin Gupta, Sudhakar Panda, Abinash Swain.
  29. "Phase Squeezing of Quantum Hypergraph States": Journal of Physics B: Atomic, Molecular and Optical Physics 54, 135501 (2021); arXiv:2009.01082: Ramita Sarkar, Supriyo Dutta, Subhashish Banerjee, Prasanta K. Panigrahi.
  30. "P T symmetric evolution, coherence and violation of Leggett-Garg inequalities": J. Phys. A: Math- ematical and Theoretical 54, 275303 (2021); arXiv:1912.12030: Javid Naikoo, Swati Kumari, Sub- hashish Banerjee and A. K. Pan.
  31. "Characterizing qubit channels in the context of quantum teleportation": Phys. Rev. A 103, 052422 (2021); arXiv:2102.02054: Arkaprabha Ghosal, Debarshi Das, Subhashish Banerjee.
  32. "Characteristics of interaction between Gravitons and Photons": Euro. Phys. J Plus 136, 403 (2021): https://doi.org/10.1140/epjp/s13360-021-01361-8; arXiv:2001.10196: Athira B S, Susobhan Mandal, Subhashish Banerjee.
  33. "Singularities, mixing and non-Markovianity of Pauli dynamical maps": Phys. Rev. A 103, 042610 (2021) ; arXiv:2011.04053: Shrikant Utagi, Vinod N. Rao, R. Srikanth, Subhashish Banerjee.
  34. "A class of quasi-eternal non-Markovian Pauli channels and their measure": Open Systems and Information Dynamics (OSID) 27 (No. 4), 2050019 (2020): arXiv:2002.11452: U. Shrikant, Vinod N. Rao, R. Srikanth, Subhashish Banerjee.
  35. "Non-Markovian channel from the reduced dynamics of coin in quantum walk": Phys. Rev. A 102, 062209 (2020); arXiv:2007.09896: Javid Naikoo, Subhashish Banerjee, C. M. Chandrashekar.
  36. "Distinguishing environment-induced non-Markovianity from subsystem dynamics": International Journal of Quantum Information 18 (No.7) 2050042 (2020): Javid Naikoo, Subhashish Banerjee and R. Srikanth.
  37. "Effect of memory on the violation of Leggett-Garg inequality": Quantum Information Processing 19, 408 (2020) : Javid Naikoo, Subhashish Banerjee and R. Srikanth.
  38. "Hierarchy of quantum correlations under non-Markovian dynamics": Quantum Information Processing 20, 141 (2021): https://doi.org/10.1007/s11128-021-03061-9; arXiv:2004.11208: K. G Paulson, Ekta Panwar, Subhashish Banerjee, and R. Srikanth.
  39. "Quantum Communication using Code Division Multiple Access Network": Optical and Quantum Electronics 52, 381 (2020), https://doi.org/10.1007/s11082-020-02494-3, arXiv:1905.12829: Vishal Sharma, Subhashish Banerjee.
  40. "Ping-Pong quantum key distribution with trusted noise: non-Markovian advantage": Quantum Information Processing 19, 366 (2020) (arXiv:2004.05689), U. Shrikant, R. Srikanth, Subashish Banerjee.
  41. "Experimental Quantum Probing Measurements With No Knowledge on the System-Probe Interaction": Phys. Rev. A 102, 022232 (2020):: Henri Lyyra, Olli Siltanen, Jyrki Piilo, Subhashish Banerjee, Tom Kuusela.
  42. "Impact of photon addition and subtraction on nonclassical and phase properties of a displaced Fock state": Optics Communications 459, 124964 (2020), arXiv:1908.04086 : Priya Malpani, Kishore Thapliyal, Nasir Alam, Anirban Pathak, V. Narayanan, Subhashish Banerjee.
  43. "Manipulating nonclassicality via quantum state engineering processes: Vacuum filtration and single photon addition": Annalen der Physik (Berlin) 532, 1900337 (2020) : Priya Malpani, Nasir Alam, Kishore Thapliyal, Anirban Pathak, V. Narayanan, Subhashish Banerjee.
  44. "A quantum information theoretic quantity sensitive to the neutrino mass-hierarchy": Nuclear Physics B 51, 114872 (2020) , Javid Naikoo, Ashutosh Kumar Alok, Subhashish Banerjee, S. Uma Sankar, Giacomo Guarnieri, Christiane Schultze, Beatrix C. Hiesmayr.
  45. "A study of coherence based measure of quantumness in (non) Markovian channels": Quantum Information Processing 19 29 (2020), https://doi.org/10.1007/s11128-019-2533-x, arXiv:1905.12872: Javid Naikoo, Subhashish Banerjee.
  46. "Violation of Leggett-Garg type inequalities in a driven two level atom interacting with a squeezed thermal reservoir": Phys. Rev. A 100 062132, (2019): Javid Naikoo, Subhashish Banerjee, Arun M. Jayannavar
  47. "Probing inequivalent forms of Legget-Garg inequality in subatomic systems": Journal of Physics G: Nuclear and Particle Physics, 47, 095004 (2020): Javid Naikoo, Swati Kumari, Subhashish Banerjee, A. K. Pan.
  48. "Local description of S-matrix in quantum field theory in curved spacetime using Riemann-normal coordinate": Euro. Phys. J. Plus 136, 1064 (2021): arXiv:1908.06717: Susobhan Mandal, Subhashish Banerjee.
  49. "Response of a uniformly accelerated Unruh-DeWitt detector in polymer quantization": arXiv:1909.01027 : Gopal Sardar, Subhashish Banerjee.
  50. "Temporal self-similarity of quantum dynamical maps as a concept of memorylessness": Nature Scientific Reports: 10, 15049 (2020) (https://doi.org/10.1038/s41598-020-72211-3) arXiv:1911.04162: U. Shrikant, R. Srikanth, and Subhashish Banerjee.
  51. "Quantumness of channels": Quantum Information Processing 20, 32 (2021), arXiv:1911.07677: Javid Naikoo, Subhashish Banerjee, and R. Srikanth.
  52. "Interplay between nonclassicality and PT symmetry in an effective two level system with open system effects": Phys. Rev. A 100, 023836 (2019), arXiv:1904.11181: Javid Naikoo, Subhashish Banerjee, Anirban Pathak.
  53. "Quantum phase properties of photon added and subtracted displaced Fock states": Annalen der Physik (Berlin) 531 (11), (2019), arXiv:1904.01603: Priya Malpani, Kishore Thapliyal, Nasir Alam, Anirban Pathak, V. Narayanan, Subhashish Banerjee. (Paper appeared on the coverpage of the November issue of the journal.)
  54. "Quantum correlations in neutrino oscillations in curved spacetime": Phys. Rev. D 100, 055021 (2019), arXiv:1903.05664: Khushboo Dixit, Javid Naikoo, Banibrata Mukhopadhyay, Subhashish Banerjee.
  55. "Trends in Quantum Optics: A Personal Perspective": Resonance 25 1559, (2020): Subhashish Banerjee, Arun Jayannavar.
  56. "Facets of quantum information under non-Markovian evolution": Phys. Rev. A 99, 042128 (2019): Javid Naikoo, Supriyo Dutta, Subhashish Banerjee.
  57. "Leggett-Garg inequality in the context of three flavour neutrino oscillation": Phys. Rev. D 99, 095001 (2019): Javid Naikoo, Ashutosh Kumar Alok, Subhashish Banerjee, S. Uma Sankar.
  58. "Quantum Zeno effect and nonclassicality in a PT symmetric system of coupled cavities": Phys. Rev. A 99, 023820 (2019): Javid Naikoo, Kishore Thapliyal, Subhashish Banerjee and Anirban Pathak.
  59. "Study of coherence and mixedness in meson and neutrino systems": Eur. Phys. J. C 79, 96 (2019): Khushboo Dixit, Javid Naikoo, Subhashish Banerjee and Ashutosh Kumar Alok.
  60. "Lower- and higher-order nonclassical properties of photon added and subtracted displaced Fock states": Annalen der Physik (Berlin) 531, 1800318 (2019); arXiv:1808.01458: Priya Malpani, Nasir Alam, Kishore Thapliyal, Anirban Pathak, V.Narayanan and Subhashish Banerjee.
  61. "Entropic Leggett-Garg inequality in neutrinos and B (K) meson systems": Eur. Phys.J. C 78, 602 (2018): Javid Naikoo and Subhashish Banerjee.
  62. "Quantum correlations and the neutrino mass degeneracy problem": Eur. Phys. J. C 78, 914 (2018), arXiv:1807.01546: Khushboo Dixit, Javid Naikoo, Subhashish Banerjee and Ashutosh Kumar Alok.
  63. "Leggett-Garg inequality violation under non-Markovian noise": arXiv:1806.00537: Javid Naikoo, Subhashish Banerjee and R. Srikanth.
  64. "Non-Markovian dephasing and depolarizing channels": Phys. Rev. A 98, 032328 (2018): arXiv:1805.11411: U. Shrikant, R. Srikanth and Subhashish Banerjee.
  65. "Enhanced non-Markovian behavior in quantum walks with Markovian disorder": Scientific Reports (2018) 8:8801; DOI:10.1038/s41598-018-27132-7, arXiv:1802.05478: N. Pradeep Kumar, Subhashish Banerjee and C. M. Chandrashekar.
  66. "Thermodynamics of non-Markovian reservoirs and heat engines": Phys. Rev. E 97, 062108 (2018): arXiv:1801.00744: George Thomas, Nana Siddharth, Subhashish Banerjee and Sibasish Ghosh.
  67. "A study of temporal quantum correlations in decohering B and K meson systems": Phys. Rev. D 97, 053008 (2018): Javid Naikoo, Ashutosh K Alok and Subhashish Banerjee.
  68. "Probing nonclassicality in an optically-driven cavity with two atomic ensembles": Phys. Rev. A 97, 063840 (2018); arXiv:1712.04154: Javid Naikoo, Kishore Thapliyal, Anirban Pathak and Subhashish Banerjee.
  69. "Decoherence can help quantum cryptographic security": Quantum Information Processing, 17, 207 (2018), arXiv:1712.06519: Vishal Sharma, U. Shrikant, R. Srikanth and Subhashish Banerjee.
  70. "Analysis of atmospheric effects on satellite based quantum communication: A comparative study" Quantum Information Processing 18, 67 (2019); arXiv:1711.08281: Vishal Sharma, Subhashish Banerjee.
  71. "Non-Markovian evolution: a quantum walk perspective": Open Systems & Information Dynamics (OSID) 25, 1850015 (2018): arXiv:1711.03267: Pradeep Kumar, Subhashish Banerjee, R. Srikanth, Vinayak Jagadish, Francesco Petruccione.
  72. "Condition for zero and non-zero discord in graph Laplacian quantum states": International Journal of Quantum Information (IJQI) 17, 1950018 (2019), Supriyo Dutta, Bibhas Adhikari, Subhashish Banerjee.
  73. "Geometric phase and neutrino mass hierarchy problem": J. Phys. G, 45, 085002 (2018), arXiv:1703.09894: Khushboo Dixit, Ashutosh Kumar Alok, Subhashish Banerjee, Dinesh Kumar.
  74. "Non-Markovian Dynamics of Discrete-Time Quantum Walks": arXiv:1703.08004: Subhashish Banerjee, N. Pradeep Kumar, R. Srikanth, Vinayak Jagadish, Francesco Petruccione.
  75. "Quantum discord of states arising from graphs": Quantum Information Processing, 16(8), 183 (2017), arXiv:1702.06360: Supriyo Dutta, Bibhas Adhikari and Subhashish Banerjee.
  76. "Seidel switching for weighted multi-digraphs and its quantum perspective": arXiv:1608.07830: Supriyo Dutta, Bibhas Adhikari and Subhashish Banerjee.
  77. "Quantum cryptography over non-Markovian channels": Quantum Information Processing, 16, 115 (2017), DOI: 10.1007/s11128-017-1567-1; arXiv:1608.06071: Kishore Thapliyal, Anirban Pathak and Subhashish Banerjee.
  78. "Characterization of Unruh Channel in the context of Open Quantum Systems": Journal Of High Energy Physics (JHEP) 02, 82 (2017), DOI: 10.1007/JHEP02(2017); arXiv:1603.05450: Subhashish Banerjee, Ashutosh Kumar Alok, S. Omkar and R. Srikanth.
  79. "A comparative study of protocols for secure quantum communication under noisy environment: single-qubit-based protocols versus entangled-state-based protocols", Quantum Information Processing 15, 4681 (2016), DOI 10.1007/s11128-0016-1396-7, arXiv:1603.00178: V. Sharma, K. Thapliyal, A. Pathak and Subhashish Banerjee.
  80. "Bipartite separability and non-local quantum operations on graphs", Phys. Rev. A 94, 012306 (2016), arXiv: 1601.07704: S. Dutta, B. Adhikari, Subhashish Banerjee and R. Srikanth.
  81. "Evolution of coherence and non-classicality under global environmental interaction": Quantum Information Processing 17, 236 (2018), arXiv:1601.04742: Samyadeb Bhattacharya, Subhashish Banerjee and Arun Kumar Pati.
  82. "Quantum Fisher and Skew information for Unruh accelerated Dirac qubit": Eur. Phys. J. C (EPJC) 76, 437 (2016), arXiv:1511.03029: Subhashish Banerjee, Ashutosh Kumar Alok and S. Omkar.
  83. "The two-qubit amplitude damping channel: characterization using quantum stabilizer codes": Ann. of Phys. 373, 145 (2016), arXiv:1511.03368: S. Omkar, R. Srikanth, Subhashish Banerjee, Anil Shaji.
  84. "New-physics signals of a model with a vector-singlet up-type quark", Phys. Rev. D 92, 013002 (2015): Ashutosh Kumar Alok, Subhashish Banerjee, Dinesh Kumar, S. Uma Sankar and David London.
  85. "Constraining quark mixing matrix in isosinglet vector-like down quark model from a fit to flavor-physics data", Nucl. Phys. B 906, 321 (2016), Eprint:arXiv:1402.1023: A. K. Alok, Subhashish Banerjee, D. Kumar and Subhashish U. Sankar.
  86. "Re-examining sin(2beta) and Delta m(d) from evolution of B(d) mesons with decoherence", Phys. Lett. B 749, 94 (2015): Ashutosh Kumar Alok, Subhashish Banerjee, S. Uma Sankar.
  87. "A quantum information theoretic analysis of three flavor neutrino oscillations", Eur. Phys. J C 75(10), 487 (2015) arXiv:1508.03480: Subhashish Banerjee, Ashutosh Kumar Alok, R. Srikanth and Beatrix C. Hiesmayr.
  88. "Quantum correlations in two-flavor neutrino oscillations", Nucl. Phys. B 909, 65 (2016), Eprint:arXiv:1411.5536: A. K. Alok, Subhashish Banerjee and S. U. Sankar.
  89. "Quantum correlations in B and K meson systems", Euro. Phys. J C P 131, 129 (2016), Eprint:arXiv:1409.1034: Subhashish Banerjee, A. K. Alok and R. MacKenzie.
  90. "The Unruh effect interpreted as a quantum noise channel", QIC (Quantum Information & Computation) 16, 0757 (2016), Eprint:arXiv:1408.1477: S. Omkar, Subhashish Banerjee, R. Srikanth and A. K. Alok.
  91. "Tomograms for open quantum systems: in(finite) dimensional optical and spin systems": Ann. of Phys. 366, 148 (2016), arXiv:1507.02135: Kishore Thapliyal, Subhashish Banerjee, Anirban Pathak.
  92. "Quasiprobability distributions in open quantum systems: spin-qubit systems", Ann. of Phys. 362, 261286 (2015), Kishore Thapliyal, Subhashish Banerjee, Anirban Pathak, S. Omkar, V. Ravishankar.
  93. "Controlled bidirectional remote state preparation in noisy environment: A generalized view", Eprint:arXiv:1492.0833: Quantum Information Processing 14, 3441 (2015): V. Sharma, C. Shukla, Subhashish Banerjee and A. Pathak.
  94. "A graph theoretical approach to states and unitary operations": Quantum Information Processing 15, 2193 (2016), Eprint:arXiv:1502.07821: Supriyo Dutta, Bibhas Adhikari, Subhashish Banerjee.
  95. "Characterization of quantum dynamics using quantum error correction", S. Omkar, R. Srikanth and Subhashish Banerjee, Phys. Rev. A 91, 012324 (2015), Eprint:arXiv:1405.0964.
  96. "Quantum code for quantum error characterization", S. Omkar, R. Srikanth and Subhashish Banerjee, Phys. Rev. A 91, 052309 (2015).
  97. "Entanglement in the Grovers Search Algorithm" S. Chakraborty, Subhashish Banerjee, S. Adhikari and A. Kumar, arXiv:1305.4454.
  98. "Decoherence free B d and B s meson systems" Phys. Rev. D 88, 094013 (2013), arXiv:1304.4063.
  99. "The operator sum-difference representation for quantum maps: application to the two-qubit amplitude damping channel" S. Omkar, R. Srikanth and Subhashish Banerjee, Quantum Information Processing 14, 2255 (2015), doi:10.1007/s11128015-0965-5,arXiv:1212.2780.
  100. "Enhancement of Geometric Phase by Frustration of Decoherence: A Parrondo like Effect" Subhashish Banerjee, C. M. Chandrashekar and A. K. Pati, Phys. Rev. A 87, 042119 (2013), arXiv:1208.5563.
  101. "Quantification of Entanglement of Teleportation in Arbitrary Dimensions" Sk Sazim, S. Adhikari, Subhashish Banerjee and T. Pramanik, Quantum Information Processing13, 863 (2014), arXiv:1208.4200.
  102. " An Operational Meaning of Discord in terms of Teleportation Fidelity" S. Adhikari and Subhashish Banerjee, Phys. Rev. A 86, 062313 (2012), arXiv:1207.7226.
  103. "Dissipative and Non-dissipative Single-Qubit Channels: Dynamics and Geometry" S. Omkar, R. Srikanth and Subhashish Banerjee, Quantum Information Processing 12, 3725 (2013), arXiv:1207.7226.
  104. "Laplacian matrices of weighted digraphs represented as quantum states" B. Adhikari, Subhashish Banerjee, S. Adhikari and A. Kumar, Quantum Information Processing 16, 1 (2017), DOI 10.1007/s11128-017-1530-1, arXiv:1205.2747.
  105. "Investigating nonclassical correlations of radiation emitted from generalized threelevel atomic systems" H. S. Dhar, Subhashish Banerjee, A. Chatterjee and R. Ghosh, Ann. of Phys. 331, 97 (2013),arXiv:1205.5665.
  106. "A family of generalized entropies" R. Jagannathan and Subhashish Banerjee, work in progress.
  107. "A thermodynamic geometric study of Renyi and Tsallis entropies" B. N. Tiwari, V. Chandra and Subhashish Banerjee, arXiv:1008.2853.
  108. "The quantum cryptographic switch" S Narayanaswamy, O Srikrishna, R Srikanth, Subhashish Banerjee and A. Pathak, arXiv:1111.4834; Quantum Information Processing, Special Issue on Quantum Cryptography 13, 59 (2014).
  109. "q-deformed logistic map with delay feedback" M. D. Shrimali and Subhashish Banerjee, Commun. Nonlinear Sci. Numer. Simulat (CNSNS) 18, 3126 (2013), arXiv:1203.3137.
  110. "An information theoretic study of number-phase uncertainty in a four level atomic system" A. Sharma, R. Srikanth, Subhashish Banerjee and H. Ramachandran, arXiv:1108.0641.
  111. "Geometric Phase: An Indicator of Entanglement" S. N. Sandhya and Subhashish Banerjee, Euro. Phys. J. D: 66, 168 (2012), eprint:arXiv:1103.2587.
  112. "Effect of control procedures on the evolution of entanglement in open quantum systems" S. Goyal, Subhashish Banerjee and S. Ghosh, Phys. Rev. A: 85, 012327 (2012), eprint:arXiv:1102.4403.
  113. "Quantumness of noisy quantum walks: a comparison between measurement-induced disturbance and quantum discord" B. R. Rao, R. Srikanth, C. M. Chandrashekar and Subhashish Banerjee, Phys. Rev. A: 83,064302 (2011), eprint:arXiv:1012.5040.
  114. "Parrondo's game using a discrete-time quantum walk" C. M. Chandrashekar and Subhashish Banerjee, Phys. Lett. A: 375, 1553 (2011), arXiv:1008.5121.
  115. "Entanglement generation in spatially separated systems using quantum walk" C. M. Chandrashekar, S. K. Goyal and Subhashish Banerjee, Journal of Quantum Information Science: 2, 15 (2012), eprint:arXiv:1005.3785.
  116. "Quantumness in decoherent quantum walk using measurement-induced disturbance" R. Srikanth, Subhashish Banerjee and C. M. Chandrashekar, Phys. Rev. A: 81, 062123 (2010), eprint:arXiv:1005.3456.
  117. "A study of Quantum Correlations in Open Quantum Systems" I. Chakrabarty, Subhashish Banerjee and N. Siddharth, Quantum Information and Computation: 11, 0541 (2011), eprint:arXiv:1006.1856.
  118. "A q-deformed logistic map and its implications" Subhashish Banerjee and R. Parthasarathy, J. Phys. A.:Math. Theor.: 44, 045104 (2011),eprint:arXiv:1003.0183.
  119. "Relationship Between Quantum Walk and Relativistic Quantum Mechanics" C. M. Chandrashekar, Subhashish Banerjee and R. Srikanth, Phys. Rev. A: 81, 062340 (2010), eprint: arXiv:1003.4656.
  120. "Dynamics of entanglement in two-qubit open quantum system interacting with a squeezed thermal bath via dissipative interaction" Subhashish Banerjee, V. Ravishankar, R. Srikanth, Ann. of Phys. (NY).: 325, 816 (2010), eprint:arXiv:0901.0404.
  121. "Entanglement dynamics in two-qubit open quantum system interacting with a squeezed thermal bath via quantum nondemolition interaction" Subhashish Banerjee, V. Ravishankar and R. Srikanth, Euro. Phys. J. D: 56, 277 (2010), eprint:arXiv:0810.5034.
  122. "The squeezed generalized amplitude damping channel" R. Srikanth and Subhashish Banerjee, Phys. Rev. A: 77, 012318 (2008), eprint:arXiv:0707.0059.
  123. "Symmetry-noise interplay in quantum walk on n-cycle" Subhashish Banerjee, R. Srikanth, C. M. Chandrashekar and Pranaw Rungta, Phys. Rev. A: 78, 052316 (2008), eprint: arXiv:0803.4453.
  124. "Symmetries and noise in quantum walk" C. M. Chandrashekar, R. Srikanth and Subhashish Banerjee, Phys. Rev. A: 76, 022316 (2007), eprint: arXiv:quant-ph/0607188.
  125. "Complementarity in atomic and oscillator systems" R. Srikanth and Subhashish Banerjee, Phys. Lett. A: 374, 3147 (2010), eprint:arXiv: 1005.3456.
  126. "Complementarity in generic open quantum systems" Subhashish Banerjee and R. Srikanth, Modern Phys. Lett. B: 24, 2485 (2010), eprint: arXiv:0905.3269.
  127. "Complementarity in atomic systems: an information-theoretic approach" R. Srikanth and Subhashish Banerjee, Eur. Phys. J. D: 53, 217 (2009), eprint: arXiv:0711.0875.
  128. "Phase difusion in quantum dissipative systems" Subhashish Banerjee and R. Srikanth, Phys. Rev. A: 76, 062109 (2007), eprint:arXiv:0706.3633.
  129. "An environment-mediated quantum deleter" R. Srikanth and Subhashish Banerjee, Phys. Lett. A: 367, 295 (2007), eprint: arXiv:quantph/0611263.
  130. "Geometric Phase of a qubit interacting with a squeezed-thermal bath" Subhashish Banerjee and R. Srikanth, Eur. Phys. J. D: 46, 335 (2008), eprint: arXiv:quantph/0611161.
  131. "Phase diffusion pattern in quantum nondemolition systems" Subhashish Banerjee, J. Ghosh and R. Ghosh, Phys. Rev. A: 75, 062106 (2007), eprint:arXiv:quantph/0703055.
  132. "Classical limit of master equation for harmonic oscillator coupled to oscillator bath with separable initial conditions" Subhashish Banerjee and A. Dhar, Physical Review E: 73, 067104 (2006), eprint: arXiv:condmat/0511645.
  133. "Dynamics of decoherence without dissipation in a squeezed thermal bath" Subhashish Banerjee and R. Ghosh, J. Phys. A:Math. Theo: 40, 13735 (2007), eprint:arXiv:quant-ph/0703054.
  134. "Functional integral treatment of some quantum nondemolition systems and their variants" Subhashish Banerjee and R. Ghosh, J. Phys. A: Math. Theo.: 40, 1273 (2007), eprint:arXiv:quantph/0611127.
  135. "Structure of Propagators for quantum nondemolition systems" Subhashish Banerjee and R. Ghosh, eprint: arXiv:quant-ph/0611125.
  136. "Applications of Canonical Transformations" Subhashish Banerjee and J. Kupsch, J. Phys. A: Math. Gen 38, 5237 (2005), eprint: arXiv:quantph/0410209.
  137. "Ultracoherence and Canonical Transformations" J. Kupsch and Subhashish Banerjee, Infnite Dimensional Analysis, Quantum Probability and Related Topics: 9, 413 (2006), eprint: arXiv:math-ph/0410049.
  138. "Decoherence and dissipation of an open quantum system with a squeezed and frequency modulated heat bath" Subhashish Banerjee, Physica A: 337, 67 (2004).
  139. "General quantum Brownian motion with initially correlated and nonlineraly coupled environment" Subhashish Banerjee and R. Ghosh, Physical Review E.: 67, 056120 (2003).
  140. "Propagator for a spin-Bose system with the Bose field coupled to a reservoir of harmonic oscillators" Subhashish Banerjee and R. Ghosh, J. Phys. A: Math. Gen: 36, 5787 (2003).
  141. "Quantum theory of a Stern-Gerlach system in contact with a lineraly dissipative environment" Subhashish Banerjee and R. Ghosh, Physical Review A: 62, 042105 (2000).