Publications (including pre-prints)
T. Deshpande, A. Ionescu, N. Miller, Z. Wang, G. Gabrielse, A. Geraci, and T. Kovachy. “Lower Limits on Scalar Ultralight Dark Matter from Optical Cavities.” arXiv:2412.20623. Submitted to Physical Review Letters.
Y.Wang,* J. Glick,* T. Deshpande,* K. DeRose,* S. Saraf, N. Sachdeva, K. Jiang, Z. Chen, and T. Kovachy. “Robust Quantum Control via Multipath Interference for Thousandfold Phase Amplification in a Resonant Atom Interferometer.” Physical Review Letters 133, 243403.
J. Glick, Z. Chen, T. Deshpande, Y.Wang, and T. Kovachy. “Coriolis force compensation and laser beam delivery for 100-meter baseline atom interferometry.” AVS Quantum Science 6, 014402.
G. Louie, Z. Chen, T. Deshpande, and T. Kovachy. “Robust atom optics for Bragg atom interferometry.” New Journal of Physics 25, 083017.
K. DeRose, T. Deshpande, Y.Wang, and T. Kovachy. “High-power, low-phase-noise, frequency-agile laser system for delivering fiber-noise-cancelled pulses for Strontium clock atom interferometry.” Optics Letters 48, 3893.
Z. Chen, G. Louie, Y. Wang, T. Deshpande, and T. Kovachy. “Enhancing strontium clock atom interferometry using quantum optimal control,” Physical Review A 107, 063302.
Chen Li, Xiang Li, T. Deshpande, Xinwei Li, N. Nair, J. G. Analytis, D. M. Silevitch, T. F. Rosenbaum, and D. Hsieh. “High-pressure control of optical nonlinearity in the polar Weyl semimetal TaAs,” Physical Review B 106, 014101 (2022).
M. Antypas et al. “New Horizons: Scalar and Vector Ultralight Dark Matter,” arXiv:2203.14915 (2022).
M. Abe et al. “Matter-wave atomic gradiometer interferometric sensor (MAGIS-100),” Quantum Science and Technology 6, 044003 (2021).
Kyle Frohna,* Tejas Deshpande,* John Harter,* Wei Peng, Bradford A. Barker, Jeffrey B. Neaton, Steven G. Louie, Osman M. Bakr, David Hsieh, and Marco Bernardi. “Inversion symmetry and bulk Rashba effect in methylammonium lead iodide perovskite single crystals,” Nature Communications 9, 1-9 (2018).
S. A. Imam, T. Deshpande, A. Guermoune, M. Siaj, and T. Szkopek. “Charge transfer hysteresis in graphene dual-dielectric memory cell structures,” Applied Physics Letters 99, 082109 (2011).
Invited talks
Towards tests of causal nonlinear quantum mechanics using light-pulse atom interferometry. Quantum Technologies for Fundamental Physics, Erice, Italy.
Progress toward development of a strontium atom interferometer for precise gravitational measurements. Society of Photographic Instrumentation Engineers (SPIE) Photonics West.
Gravitational wave and dark matter detection using atom interferometry (MAGIS-100). Midwest Cold Atom Workshop, Purdue University.