Publications
Shadmany, D.*, Kumar, A.*, Soper, A., Palm, L., Yin, C., Ando, H., Li, B., Taneja, L., Jaffe, M., Schuster, D. and Simon, J. (2024). Cavity QED in a High NA Resonator. arXiv preprint arXiv:2407.04784
Yin, C., Ando, H., Stone, M., Shadmany, D., Soper, A., Jaffe, M.,Kumar, A., Simon, J. (2023). A Cavity Load Lock Apparatus for Next-Generation Quantum Optics Experiments. arXiv Preprint arXiv:2301. 12323.
Baum, C., Jaffe, M., Palm, L., Kumar, A., & Simon, J. (2023). Optical mode conversion via spatiotemporally modulated atomic susceptibility. Optics Express, 31(1), 528–535.
Kumar, A.*, Suleymanzade, A.*, Stone, M.*, Taneja, L., Anferov, A., Schuster, D. I., & Simon, J. (2023). Quantum-enabled millimetre wave to optical transduction using neutral atoms. Nature, 615(7953), 614–619.
Jaffe, M., Palm, L., Baum, C., Taneja, L., Kumar, A., & Simon, J. (2022). Understanding and suppressing backscatter in optical resonators. Optica, 9(8), 878–885.
Giraldo, F.*, Kumar, A.*, Wu, T.-Y., Du, P., & Weiss, D. S. (2022). State-selective electromagnetically induced transparency for quantum error correction in neutral atom quantum computers. Physical Review A, 106(3), 032425.
Wu, T.-Y., Kumar, A., Giraldo, F., & Weiss, D. S. (2019). Stern–Gerlach detection of neutral-atom qubits in a state-dependent optical lattice. Nature Physics, 15(6), 538–542.
Kumar, A., Wu, T.-Y., Giraldo, F., & Weiss, D. S. (2018). Sorting ultracold atoms in a three-dimensional optical lattice in a realization of Maxwell’s demon. Nature, 561(7721), 83.
Wang, Y., Kumar, A., Wu, T.-Y., & Weiss, D. S. (2016). Single-qubit gates based on targeted phase shifts in a 3D neutral atom array. Science, 352(6293), 1562–1565.
Wang, Y., Zhang, X., Corcovilos, T. A., Kumar, A., & Weiss, D. S. (2015). Coherent addressing of individual neutral atoms in a 3D optical lattice. Physical Review Letters, 115(4), 043003.
Agrawal, A., Kejalakshmy, N., Uthman, M., Rahman, B. M. A., Kumar, A., & Grattan, K. T. V. (2012). Ultra low bending loss equiangular spiral photonic crystal fibers in the terahertz regime. AIP Advances, 2(2).