“High-power, low-phase-noise, frequency-agile laser system for delivering fiber-noise-canceled pulses for strontium clock atom interferometry.” K. DeRose, T. Deshpande, Y. Wang, and T. Kovachy, Optics Letters 48, 3893-3896 (2023).
“Spin-squeezing enhanced dual-species atom interferometric accelerometer employing large momentum transfer for precision test of the equivalence principle.” J. Li, G. R. M. da Silva, S. Kain, J. Bonacum, D. D. Smith, T. Kovachy, and S. M. Shahriar, Physical Review D 108, 024011 (2023).
“Enhancing strontium clock atom interferometry using quantum optimal control.” Z. Chen, G. Louie, Y. Wang, T. Deshpande, and T. Kovachy, Physical Review A 107, 063302 (2023).
“MAGIS-100 environmental characterization and noise analysis.” J. Mitchell, T. Kovachy, S. Hahn, P. Adamson, and S. Chattopadhyay, Journal of Instrumentation 17, P01007 (2022).
“Beam Profiling with Noise Reduction from Computer Vision and Principal Component Analysis for the MAGIS-100 Experiment.” Joseph Jachinowski, Natasha Sachdeva, and Tim Kovachy, 2021 IEEE Conference on Antenna Measurements & Applications (CAMA), 423-428 (2021).
“High Sensitivity Multi-Axes Rotation Sensing Using Large Momentum Transfer Point Source Atom Interferometry.” Jinyang Li, Gregorio R. M. da Silva, Wayne C. Huang, Mohamed Fouda, Jason Bonacum, Timothy Kovachy, and Selim M. Shahriar. Atoms 9, 51 (2021).
“Matter-wave Atomic Gradiometer Interferometric Sensor (MAGIS-100).” The MAGIS Collaboration, Quantum Science and Technology 6, 044003 (2021).
“Limitations on maximum achievable enhancement in sensitivity using large momentum transfer for point source atom interferometry.” Jinyang Li, Gregorio R. M. da Silva, Wayne C. Huang, Mohamed Fouda, Jason Bonacum, Timothy Kovachy, and Selim M. Shahriar, Proceedings of SPIE 11700, Optical and Quantum Sensing and Precision Metrology, 117000A (2021).
“AEDGE: Atomic Experiment for Dark Matter and Gravity Exploration in Space.” The AEDGE Team, European Physical Journal: Quantum Technology 7, 6 (2020).
“Effective inertial frame in an atom interferometric test of the equivalence principle,” C. Overstreet, P. Asenbaum, T. Kovachy, R. Notermans, J. M. Hogan, and M. A. Kasevich, Physical Review Letters 120, 183604 (2018).
“Phase shift in an atom interferometer due to spacetime curvature across its wavefunction,” P. Asenbaum, C. Overstreet, T. Kovachy, D. D. Brown, J. M. Hogan, and M. A. Kasevich, Physical Review Letters 118, 183602 (2017).
“Quantum Superposition at the Half-Metre Scale,” T. Kovachy, P. Asenbaum, C. Overstreet, C. A. Donnelly, S. M. Dickerson, A. Sugarbaker, J. M. Hogan, and M. A. Kasevich, Nature 528, 530-533 (2015).
“Matter Wave Lensing to Picokelvin Temperatures,” T. Kovachy, J. M. Hogan, A. Sugarbaker, S. M. Dickerson, C. A. Donnelly, C. Overstreet, and M. A. Kasevich, Physical Review Letters 114, 143004 (2015).
“Macroscopic Scale Atom Interferometers: Introduction, Techniques, and Applications,” T. Kovachy, A. Sugarbaker, R. Notermans, P. Asenbaum, C. Overstreet, J. M. Hogan, and M. A. Kasevich, contribution to the lecture notes for Les Houches Summer School, Session CVII—Current Trends in Atomic Physics, edited by A. Browaeys et al. (Oxford University Press, 2019) pp. 221-291..