Publications

Displaying 1 - 25 of 478

2024

S. Sun, Wang, B., Liu, K., Harrington, M. W., Tabatabaei, F., Liu, R., Wang, J., Hanifi, S., Morgan, J., Jahanbozorgi, M., Yang, Z., Bowers, S., Morton, P., Nelson, K. D., Beling, A., Blumenthal, D. J., and Yi, X., "Integrated optical frequency division for microwave and mmWave generation," Nature 1-6 (2024).
N. Chauhan, Caron, C., Wang, J., Isichenko, A., Helaly, N., Liu, K., Niffenegger, R., and Blumenthal, D. J., "Trapped ion qubit and clock operations with a visible wavelength photonic coil resonator stabilized integrated Brillouin laser," (2024).

2023

K. Liu, Wang, J., Chauhan, N., Harrington, M. W., Nelson, K. D., and J.Blumenthal, D., "Integrated photonic molecule Brillouin laser with a high-power sub-100-mHz fundamental linewidth," Optics Letters 49, 4 (2023).
A. Isichenko, Chauhan, N., Wang, J., Bose, D., Liu, K., Harrington, M. W., and Blumenthal, D. J., "Photonic integrated building-blocks for rubidium cold atom systems," in 2023 Ieee Photonics Society Summer Topicals Meeting Series (Sum) (2023), pp. 1-2.
A. Isichenko, Chauhan, N., Bose, D., Wang, J., Kunz, P., and Blumenthal, D. J., "Photonic integrated beam delivery for a rubidium 3D magneto-optical trap," Nature Communications 14, 3080 (2023).
J. Wang, Liu, K., Isichenko, A., Rudy, R., and Blumenthal, D. J., "Integrated programmable strongly coupled three-ring resonator photonic molecule with ultralow-power piezoelectric control," Optics Letters 48, 2373-2376 (2023).
D. J. Blumenthal, Chauhan, N., Isichenko, A., Liu, K., and Wang, J., "Integrated stabilized lasers and circuits for atom cooling, trapping, and interrogation," in Spie Quantum West (SPIE, 2023), Vol. 12447, pp. 157-161.

2022

A. Isichenko, Chauhan, N., Bose, D., Wang, J., Kunz, P., and Blumenthal, D. J., "Photonic integrated beam delivery in a rubidium 3D magneto-optical trap," (2022).
A. Chanana, Larocque, H., Moreira, R., Carolan, J., Guha, B., Melo, E., Anant, V., Song, J., Englund, D., Blumenthal, D. J., Srinivasan, K., and Davanco, M., "Ultra-low loss quantum photonic circuits integrated with single quantum emitters," Nature Communications 13, 7693 (2022).
N. Chauhan, Isichenko, A., Wang, J., and Blumenthal, D. J., "Sub-dB/m loss integrated 103 and 90 million Q resonators for laser stabilization at rubidium and strontium wavelengths," in 2022 Ieee Photonics Conference (Ipc) (2022), pp. 1-2.
K. Liu, Dallyn, J., Brodnik, G. M., Isichenko, A., Harrington, M. W., Chauhan, N., Bose, D., Morton, P., Papp, S. B., Behunin, R. O., and Blumenthal, D. J., "Photonic circuits for laser stabilization with integrated ultra-high Q and Brillouin laser resonators," APL Photonics 7, 096104 (2022).
J. Wang, Liu, K., Harrington, M. W., Rudy, R., and Blumenthal, D. J., "Silicon nitride stress-optic microresonator modulator for optical control applications," Optics Express 30, 31816-31827 (2022).
K. Liu, Chauhan, N., Wang, J., Isichenko, A., Brodnik, G. M., Morton, P., Behunin, R. O., Behunin, R. O., Papp, S. B., Papp, S. B., and Blumenthal, D. J., "36 Hz integral linewidth laser based on a photonic integrated 4.0 m coil resonator," Optica 9, 770-775 (2022).
A. Isichenko, Chauhan, N., Bose, D., Kunz, P., and Blumenthal, D. J., "Cooling rubidium atoms with a photonic integrated 3D magneto-optical trap," in Optical Sensors And Sensing Congress 2022 (Ais, Lacsea, Sensors, Es) (Optica Publishing Group, 2022), p. STu4G.6.
D. Bose, Wang, J., and Blumenthal, D., "250C Process for < 2dB/m Ultra-Low Loss Silicon Nitride Integrated Photonic Waveguides," in Cleo (2022).
K. Liu, Harrington, M. W., Nelson, K. D., Behunin, R. O., Papp, S. B., and Blumenthal, D. J., "Photonic integrated cascade-inhibited Brillouin laser with sub-100-mHz fundamental linewidth," in Cleo (2022).
J. Wang, Liu, K., Harrington, M., Rudy, R., and Blumenthal, D., "A low-power PZT stress-optic Si3N4 micro-ring modulator for PDH locking applications," in Cleo (2022).
J. Dallyn, Liu, K., Harrington, M. W., Brodnik, G. M., Rakich, P. T., Blumenthal, D. J., and Behunin, R. O., "Thermal and driven noise in Brillouin lasers," Physical Review A 105, 043506 (2022).
J. Wang, Liu, K., Harrington, M. W., Rudy, R., and Blumenthal, D., "Ultra-low loss silicon nitride ring modulator with low power PZT actuation for photonic control," in Ofc (2022).
K. Liu, Chauhan, N., Wang, J., Isichenko, A., Brodnik, G. M., Morton, P., Behunin, R., Papp, S. B., and Blumenthal, D. J., "Semiconductor laser stabilized by a photonic integrated 4 meter coil-waveguide resonator," in Ofc (2022).
D. Blumenthal, Liu, K., Jin, N., Cheng, H., Chauhan, N., Puckett, M., Nelson, K., Behunin, R., and Rakich, P., "Ultra-low 0.034 dB/m loss wafer-scale integrated photonics realizing 720 million Q and 380 μW threshold Brillouin lasing," Optics Letters (2022).
A. Chanana, Larocque, H., Moreira, R., Carolan, J., Guha, B., Anant, V., Song, J., Englund, D., Blumenthal, D. J., Srinivasan, K., and Davanco, M., "Triggered single-photon generation and resonance fluorescence in ultra-low loss integrated photonic circuits," arXiv:2202.04615 [physics] (2022).
N. Chauhan, Wang, J., Bose, D., Liu, K., Compton, R., Fertig, C., Hoyt, C., and Blumenthal, D. J., "Ultra-low loss visible light waveguides for integrated atomic, molecular, and quantum photonics," Optics Express 30, 6960-6969 (2022).

2021

Q. Zhao, Harrington, M. W., Isichenko, A., Liu, K., Behunin, R. O., Papp, S. B., Rakich, P. T., Hoyt, C. W., Fertig, C., and Blumenthal, D. J., "Integrated reference cavity with dual-mode optical thermometry for frequency correction," Optica 8, 1481-1487 (2021).
PDF11.18 MB
G. M. Brodnik, Harrington, M. W., Dallyn, J., Bose, D., Zhang, W., Stern, L., Morton, P., Behunin, R. O., Papp, S. B., and Blumenthal, D. J., "Optically synchronized fibre links using spectrally pure chip-scale lasers," Nature Photonics 1-6 (2021).
PDF3.5 MB