Publications

  1. Pooja Siwach, P. Arumugam, “Quantum computation of nuclear observables involving linear combination of unitary operators." Phys. Rev. C, 105 (2022) 064318.

  2. Michael J. Cervia, Pooja Siwach, Amol V. Patwardhan, A. B. Balantekin, S. N. Coppersmith, and Calvin W. Johnson. “Collective neutrino oscillations with tensor networks using a time-dependent variational principle." Phys. Rev. D., 105 (2022) 123025.

  3. Pooja Siwach, P. Arumugam, S. Modi, L. S. Ferreira, and E. Maglione, “Fine structure in odd–odd proton emitter 144Tm." Phys. Rev. C Letter, 105 (2022) L031302.

  4. Pooja Siwach, D. Lacroix, “Filtering states with total spin on a quantum computer." Phys. Rev. A, 104 (2021) 062435.

  5. Pooja Siwach, P. Arumugam, “Quantum simulation of nuclear Hamiltonian with a generalized transformation for Gray code encoding." Phys. Rev. C, 104 (2021) 034301.

  6. Pooja Siwach, P. Arumugam, S. Modi, L. S. Ferreira, and E. Maglione, “Interpretation of 108I as an odd-odd γ-deformed proton emitter." Phys. Rev. C Letter, 103 (2021) L031303.

  7. Pooja Siwach, P. Arumugam, L. S. Ferreira, and E. Maglione, “Behavior of chiral bands in 128,130Cs and 130La." Phys. Rev. C, 103 (2021) 024327.

  8. Pooja Siwach, P. Arumugam, L. S. Ferreira, and E. Maglione, “Chirality in 136,138Pm." Phys. Lett. B, 811 (2020) 135937.

  9. Pooja Siwach, P. Arumugam, S. Modi, L. S. Ferreira, and E. Maglione, “Nonadiabatic quasiparticle description of rotation-particle coupling in triaxial odd–odd nuclei." J. Phys. G: Nucl. Part. Phys., 47 (2020) 125105.

  10. Pooja Siwach, P. Arumugam, S. Modi, L. S. Ferreira, and E. Maglione, “Effects of triaxiality and residual np interaction in the proton emission from 140Ho." (Submitted to Phys. Rev. C, under review).

  11. D. Lacroix, A. B. Balantekin, M. J. Cervia, A. V. Patwardhan, and Pooja Siwach, “Role of non-gaussian quantum fluctuations in neutrino entanglement" arXiv:2205.09384.

  12. D. Lacroix, E. A. R. Guzman, and Pooja Siwach, “Symmetry breaking/symmetry preserving circuits and symmetry restoration on quantum computers: A quantum many-body perspective" arXiv:2208.11567.

  13. A. V. Patwardhan, M. J. Cervia, E. Rrapaj, Pooja Siwach, and A. B. Balantekin, “Many-body collective neutrino oscillations: recent developments", submitted to Handbook of Nuclear Physics, Springer, 2022.

Refereed conference proceedings

  1. Pooja Siwach, P. Arumugam, S. Modi, L. S. Ferreira, and E. Maglione. “Proton emission study as a guide to astrophysical rp process." EPJ Web of Conferences, NIC-XVI, 260 (2022) 11039.

  2. Swati Modi, Pooja, Monika Patial, and P. Arumugam. “Rotation-particle coupling and the triaxiality in 167Lu." Proc. of DAE-BRNS Symp. on Nucl. Phys., 72:A9, 2019.

  3. Swati Modi, Pooja, Monika Patial, and P. Arumugam. “Nonadiabatic quasiparticle approach for neutron-rich nuclei." Proc. of DAE-BRNS Symp. on Nucl. Phys., 63:86, 2018.