Few PhD positions will soon open up in the group. Keep an eye on this site for more information.
Block entanglement bounds distribution of regionally localized entanglement, J. G. Krishnan, A. Sen(De), and A. K. Pal, arXiv: 2508.05431
Many neighbors little entanglement: A curious scaling in the variable-range extended Ising model, Harikrishnan K. J. and A. K. Pal, arXiv: 2504.01846
Developing universal logical state-purification strategy for quantum error correcting codes, C. B. Pushpan, T. K. Konar, A. Sen(De), and A. K. Pal, arXiv: 2502.01393
Deterministic entanglement concentration assisted by generalized XZ basis, Harikrishnan K. J. and A. K. Pal, arXiv: 2410.15892
Simultaneous cooling of qubits via a quantum absorption refrigerator and beyond, J. G. Krishnan, C. B. Pushpan, and A. K. Pal, arXiv: 2410.15871
Recovery of resources through sequential noisy measurements, S. Mondal, P. Halder, A. K. Pal, and A. Sen(De), Phys. Rev. A. 111, 042401 (2025), arXiv: 2406.07652
Entanglement and fidelity across quantum phase transitions in locally perturbed topological codes with open boundaries, Harikrishnan K. J. and A. K. Pal, Phys. Rev. A. 111, 032401 (2025), arXiv: 2405.00416
Logarithmic growth of peripheral entanglement concentrated via noisy measurements in a star network of spins, J. G. Krishnan, Harikrishnan K. J., and A. K. Pal, Phys. Lett. A 531, 130170 (2024), arXiv: 2307.15949
Estimating correlations and entanglement in the two-dimensional Heisenberg model in the strong rung-coupling limit, C. B. Pushpan, Harikrishnan K. J., P. Narayan, and A. K. Pal, Phys. Rev. A. 110, 032408 (2024), arXiv: 2301.04615
Quantum state transfer on 2D lattices: A low-energy effective Hamiltonian approach, C. B. Pushpan, Harikrishnan K. J., and A. K. Pal, Phys. Lett. A 511, 129543 (2024), arXiv: 2306.08440
Localizing genuine multiparty entanglement in noisy stabilizer states, Harikrishnan K. J. and A. K. Pal, Phys. Rev. A 108, 032404 (2023), arXiv: 2211.01064
Controlling gain with loss: Bounds of localizable entanglement in multi-qubit systems, J. G. Krishnan, Harikrishnan K. J., and A. K. Pal, Phys. Rev. A 107, 042411 (2023), arXiv: 2206.07731
Designing refrigerators in higher dimensions using quantum spin models, T. K. Konar, S. Ghosh, A. K. Pal, and A. Sen(De), Phys. Rev. A 107, 032602 (2023), arXiv: 2112.13765
Circulating genuine multiparty entanglement in quantum network, P. Halder, R. Banerjee, S. Ghosh, A. K. Pal, and A. Sen(De), Phys. Rev. A 106, 032604 (2022), arXiv: 2112.10122
Exactly solvable 1D quantum models with Gamma matrices, Y. Chugh, K. Dhochak, U. Divakaran, P. Narayan, and A. K. Pal, Phys. Rev. E 106, 024114 (2022), arXiv: 2201.06588
Distinguishing phases via non-Markovian dynamics of entanglement in topological quantum codes under parallel magnetic field, Harikrishnan K. J. and A. K. Pal, Phys. Rev. A 105, 052421 (2022), arXiv: 2108.11198
Hierarchies of localizable entanglement due to spatial distribution of local noise, R. Banerjee, A. K. Pal, and A. Sen(De), Phys. Rev. Research 4, 023035 (2022), arXiv: 2003.02175
Designing robust quantum refrigerators in disordered spin models, T. K. Konar, S. Ghosh, A. K. Pal, and A. Sen(De), Phys. Rev. A 105, 022214 (2022), arXiv: 2107.11668
Relaxation times do not capture logical qubit dynamics, A. K. Pal, P. Schindler, A. Erhard, A. Rivas, M.-A. Martin-Delgado, R. Blatt, T. Monz, and M. Müller, Quantum 6, 632 (2022), arXiv: 2012.07911
Three qubits in less than three baths: Beyond two-body system-bath interactions in quantum refrigerators, A. Ghoshal, S. Das, A. K. Pal, A. Sen(De), and U. Sen, Phys. Rev. A 104, 042208 (2021), arXiv: 2012.08399
Scalable characterization of localizable entanglement in noisy topological quantum codes, D. Amaro, M. Müller, and A. K. Pal, New J. Phys. 22, 053038 (2020), arXiv: 1907.13161
Uniform decoherence effect on localizable entanglement in random multi-qubit pure states, R. Banerjee, A. K. Pal, and A. Sen(De), Phys. Rev. A 101, 042339 (2020), arXiv: 1907.10847
Necessarily transient quantum refrigerator, S. Das, A. Misra, A. K. Pal, A. Sen(De), and U. Sen, Europhys. Lett. 125, 20007 (2019), arXiv: 1606.06985
Estimating localizable entanglement from witnesses, D. Amaro, M. Müller, and A. K. Pal, New. J. Phys. 20, 063017 (2018), arXiv: 1803.02753
Scale-invariant freezing of entanglement, T. Chanda, T. Das, D. Sadhukhan, A. K. Pal, A. Sen(De), and U. Sen, Phys. Rev. A 97, 062324 (2018), arXiv: 1610.00730
Emergence of entanglement with temperature and time in factorization-surface states, T. Chanda, T. Das, D. Sadhukhan, A. K. Pal, A. Sen(De), and U. Sen, Phys. Rev. A 97, 012316 (2018), arXiv: 1705.09812
Canonical distillation of entanglement, T. Das, A. Kumar, A. K. Pal, N. Shukla, A. Sen(De), and U. Sen, Phys. Lett. A 381, 3529 (2017), arXiv: 1411.7936
Multipartite entanglement accumulation in quantum states: Localizable generalized geometric measure, D. Sadhukhan, S. Singha Roy, A. K. Pal, D. Rakshit, A. Sen(De), and U. Sen, Phys. Rev. A 95, 022301 (2017), arXiv: 1511.03998
Static and dynamical quantum correlations in phases of an alternating-field XY model, T. Chanda, T. Das, D. Sadhukhan, A. K. Pal, A. Sen(De), and U. Sen, Phys. Rev. A 94, 042310 (2016), arXiv: 1605.07576
Conclusive identification of quantum channels via monogamy of quantum correlations, A. Kumar, S. Singha Roy, A. K. Pal, R. Prabhu, A. Sen(De), and U. Sen, Phys. Lett. A 380, 3588 (2016), arXiv: 1603.02801
Statistics of leading digits leads to unification of quantum correlations, T. Chanda, T. Das, D. Sadhukhan, A. K. Pal, A. Sen(De), and U. Sen, Europhys. Lett. 114, 30004 (2016), arXiv: 1509.09295 [Selected as featured article (Editor’s choice) in Europhysics Letters; Included in the Europhysics Letters Highlights of 2016]
Reducing computational complexity of quantum correlations, T. Chanda, T. Das, D. Sadhukhan, A. K. Pal, A. Sen(De), and U. Sen, Phys. Rev. A 92, 062301 (2015), arXiv: 1504.04727
Freezing of quantum correlations under local decoherence, T. Chanda, A. K. Pal, A. Biswas, A. Sen(De), and U. Sen, Phys. Rev. A, 91, 062119 (2015), arXiv: 1409.2096
Quantum discord, decoherence and quantum phase transition, I. Bose and A. K. Pal, Int. J. Mod. Phys. B 27, 1345042 (2013), arXiv: 1205.1300
Noise-induced regime shifts: A quantitative characterization, S. Ghosh, A. K. Pal, and I. Bose, Eur. Phys. J. E 36: 123 (2013), arXiv: 1212.5385
Early signatures of regime shifts in gene expression dynamics, M. Pal, A. K. Pal, S. Ghosh, and I. Bose, Phys. Biol. 10, 036010 (2013), arXiv: 1212.5383
Markovian evolution of classical and quantum correlations in transverse-field XY model, A. K. Pal and I. Bose, Eur. Phys. J. B 85: 277 (2012), arXiv: 1112.2050
Transverse Ising Model: Markovian evolution of classical and quantum correlations under decoherence, A. K. Pal and I. Bose, Eur. Phys. J. B 85: 36 (2012), arXiv: 1107.3939
Quantum discord in the ground and thermal states of spin clusters, A. K. Pal and I. Bose, J. Phys. B: At. Mol. Opt. Phys. 44, 045101 (2011), arXiv: 1012.0650
Motion of bound domain walls in a spin ladder, I. Bose and A. K. Pal, Eur. Phys. J. B 77, 139-146 (2010), arXiv: 1006.3666
Entanglement in a molecular three-qubit system, A. K. Pal and I. Bose, J. Phys.: Condens. Matter 22, 016004 (2010), arXiv: 0909.2918
Monogamy of quantum correlations - a review, H. S. Dhar, A. K. Pal, D. Rakshit, A. Sen(De), and U. Sen, In Lectures on general quantum correlations and their applications, Edited by Felipe Fanchini, Diogo Soares-Pinto, and Gerardo Adesso (Springer (2017)), DOI: 10.1007/978-3-319-53412-1, arXiv: 1610.01069