ORCID: 0000-0002-4101-2193

Web of Science ResearcherID: D-9653-2011

For pre-prints, visit https://arxiv.org/a/pal_a_2.html

  1. Deterministic entanglement concentration assisted by generalized XZ basis, Harikrishnan K. J. and AKP, arXiv: 2410.15892
  2. Simultaneous cooling of qubits via a quantum absorption refrigerator and beyond, J. G. Krishnan, C. B. Pushpan, and AKP, arXiv: 2410.15871
  3. Recovery of resource through sequential noisy measurements, S. Mondal, P. Halder, AKP, and A. Sen(De), arXiv: 2406.07652
  4. Entanglement and fidelity across quantum phase transitions in locally perturbed topological codes with open boundaries, Harikrishnan K. J. and AKP, arXiv: 2405.00416
  5. Entanglement in XYZ model on a spin-star system: Anisotropy vs. field-induced dynamics, J. G. Krishnan, Harikrishnan K. J., and AKP, arXiv: 2307.15949
  6. Quantum state transfer using 1D Heisenberg Hamiltonian on quasi-1D lattices, C. B. Pushpan, Harikrishnan K. J., and AKP, arXiv: 2306.08440
  7. Estimating entanglement in 2D Heisenberg model in the strong rung-coupling limit, C. B. Pushpan, Harikrishnan K. J., P. Narayan, and AKP, arXiv: 2301.04615
  8. Localizing genuine multiparty entanglement in noisy stabilizer states, Harikrishnan K. J. and AKP, arXiv: 2211.01064
  9. Controlling gain with loss: Bounds of localizable entanglement in multi-qubit systems, J. G. Krishnan, Harikrishnan K. J., and AKP, arXiv: 2206.07731
  10. Designing refrigerators in higher dimensions using quantum spin models, T. K. Konar, S. Ghosh, AKP, and A. Sen(De), arXiv: 2112.13765
  11. Circulating genuine multiparty entanglement in quantum network, P. Halder, R. Banerjee, S. Ghosh, AKP, and A. Sen(De), arXiv: 2112.10122
  12. Exactly solvable 1D quantum models with Gamma matrices, Y. Chugh, K. Dhochak, U. Divakaran, P. Narayan, and AKP, arXiv: 2201.06588
  13. Distinguishing phases via non-Markovian dynamics of entanglement in topological quantum codes under parallel magnetic field, Harikrishnan K. J. and AKP, arXiv: 2108.11198
  14. Hierarchies of localizable entanglement due to spatial distribution of local noise, R. Banerjee, AKP, and A. Sen(De), arXiv: 2003.02175
  15. Designing robust quantum refrigerators in disordered spin models, T. K. Konar, S. Ghosh, AKP, and A. Sen(De), arXiv: 2107.11668
  16. Relaxation times do not capture logical qubit dynamics, AKP, P. Schindler, A. Erhard, A. Rivas, M.-A. Martin-Delgado, R. Blatt, T. Monz, and M. Müller, arXiv: 2012.07911
  17. Three qubits in less than three baths: Beyond two-body system-bath interactions in quantum refrigerators, A. Ghoshal, S. Das, AKP, A. Sen(De), and U. Sen, arXiv: 2012.08399
  18. Scalable characterization of localizable entanglement in noisy topological quantum codes, D. Amaro, M. Müller, and AKP, arXiv: 1907.13161
  19. Uniform decoherence effect on localizable entanglement in random multi-qubit pure states, R. Banerjee, AKP, and A. Sen(De), arXiv: 1907.10847
  20. Necessarily transient quantum refrigerator, S. Das, A. Misra, AKP, A. Sen(De), and U. Sen, arXiv: 1606.06985
  21. Estimating localizable entanglement from witnesses, D. Amaro, M. Müller, and AKP, arXiv: 1803.02753
  22. Scale-invariant freezing of entanglement, T. Chanda, T. Das, D. Sadhukhan, AKP, A. Sen(De), and U. Sen, arXiv: 1610.00730
  23. Emergence of entanglement with temperature and time in factorization-surface states, T. Chanda, T. Das, D. Sadhukhan, AKP, A. Sen(De), and U. Sen, arXiv: 1705.09812
  24. Monogamy of quantum correlations - a review, H. S. Dhar, AKP, D. Rakshit, A. Sen(De), and U. Sen, arXiv: 1610.01069
  25. Canonical distillation of entanglement, T. Das, A. Kumar, AKP, N. Shukla, A. Sen(De), and U. Sen, arXiv: 1411.7936
  26. Multipartite entanglement accumulation in quantum states: Localizable generalized geometric measure, D. Sadhukhan, S. Singha Roy, AKP, D. Rakshit, A. Sen(De), and U. Sen, arXiv: 1511.03998
  27. Static and dynamical quantum correlations in phases of an alternating-field XY model, T. Chanda, T. Das, D. Sadhukhan, AKP, A. Sen(De), and U. Sen, arXiv: 1605.07576
  28. Conclusive identification of quantum channels via monogamy of quantum correlations, A. Kumar, S. Singha Roy, AKP, R. Prabhu, A. Sen(De), and U. Sen, arXiv: 1603.02801
  29. Statistics of leading digits leads to unification of quantum correlations, T. Chanda, T. Das, D. Sadhukhan, AKP, A. Sen(De), and U. Sen, arXiv: 1509.09295
  30. Reducing computational complexity of quantum correlations, T. Chanda, T. Das, D. Sadhukhan, AKP, A. Sen(De), and U. Sen, arXiv: 1504.04727
  31. Freezing of quantum correlations under local decoherence, T. Chanda, AKP, A. Biswas, A. Sen(De), and U. Sen, arXiv: 1409.2096
  32. Quantum discord, decoherence and quantum phase transition, I. Bose and AKP, arXiv: 1205.1300
  33. Noise-induced regime shifts: A quantitative characterization, S. Ghosh, AKP, and I. Bose, arXiv: 1212.5385
  34. Early signatures of regime shifts in gene expression dynamics, M. Pal, AKP, S. Ghosh, and I. Bose, arXiv: 1212.5383
  35. Markovian evolution of classical and quantum correlations in transverse-field XY model, AKP and I. Bose, arXiv: 1112.2050
  36. Transverse Ising Model: Markovian evolution of classical and quantum correlations under decoherence, AKP and I. Bose, arXiv: 1107.3939
  37. Quantum discord in the ground and thermal states of spin clusters, AKP and I. Bose, arXiv: 1012.0650
  38. Motion of bound domain walls in a spin ladder, I. Bose and AKP, arXiv: 1006.3666
  39. Entanglement in a molecular three-qubit system, AKP and I. Bose, arXiv: 0909.2918