Publication

https://scholar.google.com.sg/citations?user=NH3N3K0AAAAJ&hl=en

1. 1.  T. Dutta, Alex Jin, Clarence Liu Huihong , José Ignacio Latorre, Manas Mukherjee (2025) . Practicality of training a quantum-classical machine in the noisy intermediate-scale quantum era, iScience, Volume 28, Issue 8, 113058

   2.  M. Ahmadi, T. Dutta, and Manas Mukherjee (2024). A Scalable narrow linewidth high power laser for barium ion optical qubits. Optics Express, Vol 32, issue 10, pp 17879

   3. T. Dutta.  An injection-locked 1762 nm laser for trapped barium ion qubits, Applied Physics B 128, article no 136 (2022).

   4. T. Dutta, Adrián Pérez-Salinas, Jasper Phua Sing Cheng, José Ignacio Latorre, Manas Mukherjee. Single-qubit universal classifier implemented on an ion-trap quantum device, Physical Review A (2022)

   5.  T. Dutta and M. Mukherjee. A single atom noise probe operating beyond Heisenberg limit. npj Quantum Information 6, Article no 3(2020).

   6.  T. Dutta, D. De Munshi, D. Yum and M. Mukherjee (2016). An exacting transition probability measurement- direct test of atomic many-body theories. Scientific Reports 6, 29772.

   7.  T. Dutta, M. Mukherjee, K. Sengupta (2013). Ramp Dynamics of Phonons in an Ion Trap: Entanglement Generation and Cooling, Phys. Rev. Lett.  111, 170406.

   8.  T. Dutta and M. Mukherjee . High-resolution spectroscopy on Te2: New lines for reference, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Vol 208, Pages109-113 (2019)

   9.  T. Dutta, D. De Munshi and M. Mukherjee (2016). Absolute Te2 Reference for Barium Ion at 455.4nm.  Journal of Optical Society of America B, 33, 6, 1177.

   10.   T. Dutta, M. Mukherjee, K. Sengupta (2016). Optimization of phonon dynamics protocols in ion traps,  Journal of Physics B 49, 5.

   11.   T. Dutta, M. Mukherjee, K. Sengupta (2012). Non-equilibrium phonon dynamics in trapped-ion systems. Phys. Rev. A 85, 063401.

   12. N. V. Horne, D. Yum, T. Dutta, Gong Jiangbin, Peter Hanggi, Dario Poletti, and Manas Mukherjee. Single-atom energy-conversion device with a quantum load.   npj Quantum Information 6, 37 (2020).

   13.  T. Dutta and M. Mukherjee (2018). Axion dark matter search - an application of quantum metrology, arXiv:1803.01724v3 

   14. M Ahmadi, T Dutta*, M Mukherjee (2023): High power narrow linewidth laser for scaling barium ion optical qubit, arXiv preprint arXiv:2312.03388

1. 15.  Manas Mukherjee, T. Dutta, Noah Von Horne (2018), Ion Trap Quantum Computing: A New Computing Regime. ECS Transaction, Vol 86, issue 7, pages 97-107.

1. 16.  Manas Mukherjee, S. Das, D. De Munshi, T. Dutta, Peiliang Liu, Dahyun Yum (2017). Towards atomic parity violation test on barium ion. Asian Journal of Physics, Vol 25, Issue 10, pages 1291-1300.

1. 17.   D. Yum, D. De Munshi, T. Dutta, and M. Mukherjee (2017). Optical Barium Ion Qubit. Journal of the Optical Society of America B, Vol. 34, Issue 8, pp. 1632-1636.

   18. D Yum, T Dutta. Optical Sideband Cooling of a Radial Motional Mode of a Trapped 138Ba+ Ion. Journal of the Korean Physical Society, Vol. 77, No. 12(2020).

1. 19.  D. De Munshi, T. Dutta and M. Mukherjee. (2015). Precision Measurement of Branching Fractions of 138Ba+: Testing Many-Body Theories Below 1% level. Physical Review A, 91, 040501(R)

1. 20.   P. Mandal, S. Das, D. De Munshi, T. Dutta, and M. Mukherjee. (2014). Space charge and collective oscillation of ion cloud in a linear Paul trap. International Journal of Mass Spectrometry 364, 16.