Publications

Select a type to filter the publication list.

1. In situ quantum verification of polarization-stabilized optical channels,

   M. L. Stevens, N. I. Wasserbeck, Z. Goisman, A. Rahman, J. M. Record, T. Truong, A. Haqq, M. Alshowkan, B. T. Kirby, N. T. Otterstrom, J. M. Lukens.

   Physical Review Applied 25, 034090 (2026).    doi: 10.1103/63wh-4x54    Research Area: Quantum Networking

2. Beyond critical coupling: optimal design considerations for spontaneous four-wave mixing in microring resonators,

   J. M. Lukens, K. V. Myilswamy, A. Miloshevsky, H.-H. Lu.

   Optics Express 34, 2782–2798 (2026).    doi: 10.1364/OE.585584    Research Area: Bayesian Statistics

3. High-dimensional quantum photonics: roadmap,

   M. Malik, M. Kues, T.Ikuta, H. Takesue, D. Bajoni, D. J. Moss, R. Morandotti, A. Forbes, S. Walborn, E. Karimi, Y. Ding, S. Paesani, C. Vigliar, B. Brecht, C. Silberhorn, F. Bouchard, M. Karpiński, B. Sussman, J. M. Lukens, Y. Bromberg, R. Fickler, T. Giordani, F. Sciarrino, Y. Zheng, J. Wang, M. Huber, A. Tavakoli, R. Uola, N. Brunner, N. Friis, N. Herrera Valencia, J. Romero, W. McCutcheon.

   arXiv:2604.06528 (2026).    doi: 10.48550/arXiv.2604.06528    Research Area: Frequency bin

4. Revisiting the role of state texture in gate identification and fixed-point resource theories,

   A. C. B. Greenwood, J. M. Lukens, L. Qian, B. T. Kirby.

   arXiv:2602.22496 (2026).    doi: 10.48550/arXiv.2602.22496

5. High-resolution tunable frequency beamsplitter enabled by an integrated silicon pulse shaper,

   C.-Y. Su, K. Wu, L. M. Cohen, S. Fatema, N. B. Lingaraju, H.-H. Lu, A. M. Weiner, J. M. Lukens, J. D. McKinney.

   arXiv:2601.23028 (2026).    doi: 10.48550/arXiv.2601.23028    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

6. Photonic links for spin-based quantum sensors,

   M. R. Rahman, K. Schnier, R. Goldsmith, B. J. Lawrie, J. M. Lukens, S. M. Kim, P. Kung.

   arXiv:2601.22011 (2026).    doi: 10.48550/arXiv.2601.22011    Research Area: Quantum Networking

7. A paradigm for universal quantum information processing with integrated acousto-optic frequency beamsplitters,

   J. M. Lukens, J. H. Dallyn, H.-H. Lu, N. I. Wasserbeck, A. J. Graf, M. Gehl, P. S. Davids, N. T. Otterstrom.

   arXiv:2601.06752 (2026)    doi: 10.48550/arXiv.2601.06752    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

8. Optimal coupling for spontaneous four-wave mixing in microring resonators,

   J. M. Lukens, K. V. Myilswamy, A. Miloshevsky, H.-H. Lu.

   FTh4B.5, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Bayesian Statistics

9. High-purity photon-pair generation from a dual interferometrically coupled SiN microring,

   V. V. Wankhade, J. O. Gerguis, L. M. Cohen, M. Qi, J. M. Lukens, J. D. McKinney.

   FTh4B.3, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Bayesian Statistics

10. Solving routing and spectrum allocation in arbitrary flex-grid quantum networks,

    Z. Goisman, M. L. Stevens, T. Truong, G. Vardoyan, D. Towsley, N. A. Peters, N. S. V. Rao, G. Xue, J. M. Lukens.

    FTh3D.5, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Quantum Networking

11. Arbitrary control of high dimensional biphoton spectral interference,

    C.-Y. Su, H. Alaeian, J. D. McKinney, J. M. Lukens.

    FTh3A.4, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Frequency bin Network Integrated Photonics

12. Wavelength contention in an entanglement network,

    M. Alshowkan, H.-H. Lu, J. M. Lukens, N. A. Peters.

    FTh2A.5, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Quantum Networking

13. In situ quantum verification of polarization-stabilized optical channels,

    M. L. Stevens, N. I. Wasserbeck, Z. Goisman, A. Rahman, J. M. Record, T. Truong, A. Haqq, M. Alshowkan, B. T. Kirby, N. T. Otterstrom, J. M. Lukens.

    FTh2A.2, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Quantum Networking

14. Toward ancilla-assisted process tomography for dynamic in-situ metrology of metropolitan quantum network links,

    C. M. Nunn, W. McKenzie, E. Dowling, J. Su, D. E. Jones, I. A. Burenkov, S. V. Polyakov, J. M. Lukens, B. T. Kirby.

    JW1.103, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Quantum Networking

15. Cascaded inter-modal acousto-optics in a CMOS-fabricated silicon photonic circuit,

    A. Graf, F. Hubert, P. Davids, M. Gehl, A. L. Starbuck, P. Rakich, J. M. Lukens, N. T. Otterstrom.

    STu2C.1, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Network Integrated Photonics Bayesian Statistics

16. A multiplexed source of tunably spaced, spectrally pure frequency-encoded photons,

    F. Hubert, L. M. Cohen, S. E. Madaras, N. T. Otterstrom, M. Gehl, J. M. Lukens, P. S. Davids.

    FTu1D.2, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Frequency bin Bayesian Statistics

17. Unitary acousto-optic beam splitters for frequency domain quantum information processing,

    J. H. Dallyn, H.-H. Lu, N. I. Wasserbeck, P. S. Davids, J. M. Lukens, N. T. Otterstrom.

    FM1A.8, CLEO, Charlotte, NC    doi: 10.1364/TBD    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

18. Real-time heralded resource-state generator for non-Gaussian teleportation,

    J. C. Chapman, Y. Zhang, J. M. Lukens, A. M. Marino, E. Dumitrescu, Y. Wang, N. A. Peters.

    FM1A.1, CLEO, Charlotte, NC    doi: 10.1364/TBD

19. Hybrid classical-quantum communication networks,

    J. M. Lukens, N. A. Peters, B. Qi.

    Progress in Quantum Electronics 103, 100586 (2025)    doi: 10.1016/j.pquantelec.2025.100586    Research Area: Quantum Networking

20. Resilient entanglement distribution in a multihop quantum network,

    M. Alshowkan, J. M. Lukens, H.-H. Lu, N. A. Peters.

    Journal of Lightwave Technology 43, 9016–9023 (2025)    doi: 10.1109/JLT.2025.3581220    Research Area: Quantum Networking

21. Enhancing quantum state reconstruction with structured classical shadows,

    Z. Qin, J. M. Lukens, B. T. Kirby, Z. Zhu.

    npj Quantum Information 11, 147 (2025)    doi: 10.1038/s41534-025-01101-1

22. Developing a practical model for noise in entangled photon detection,

    T. Truong, C. Arenz, J. M. Lukens.

    Physical Review A 112, 023706 (2025)    doi: 10.1103/64lg-dwnm

23. On-chip pulse shaping of entangled photons,

    K. Wu, L. M. Cohen, K. V. Myilswamy, N. B. Lingaraju, H.-H. Lu, J. M. Lukens, A. M. Weiner.

    Physical Review Research 7, 033015 (2025)    doi: 10.1103/kvcq-4zqc    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

24. On-chip frequency-bin quantum photonics,

    K. V. Myilswamy, L. M. Cohen, S. Seshadri, H.-H. Lu, J. M. Lukens.

    Nanophotonics 14, 1879–1894 (2025)    doi: 10.1515/nanoph-2024-0585    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

25. Unorthodox parallelization for Bayesian quantum state estimation,

    H. H. Nguyen, K. J. H. Law, J. M. Lukens.

    New Journal of Physics 27, 054507 (2025)    doi: 10.1088/1367-2630/add618

26. Deployed quantum link characterization via Bayesian ancilla-assisted process tomography,

    A. Rahman, N. I. Wasserbeck, Z. Goisman, R. P. Fernandes, B. T. Kirby, M. Alshowkan, C. Kurtz, J. M. Lukens.

    Optics Letters 50, 2478–2481 (2025)    doi: 10.1364/ol.545625    Research Area: Quantum Networking

27. From broadband biphotons to frequency combs via spectral compression with time-varying cavities,

    K. V. Myilswamy, J. A. Gaines, J. D. McKinney, J. M. Lukens, A. M. Weiner.

    Optics Letters 50, 2191–2194 (2025)    doi: 10.1364/ol.546633    Research Area: Frequency bin

28. Quantum nonlocal modulation cancellation with distributed clocks,

    S. D. Chapman, S. Seshadri, J. M. Lukens, N. A. Peters, J. D. McKinney, A. M. Weiner, H.-H. Lu.

    Optica Quantum 3, 45–54 (2025)    doi: 10.1364/opticaq.539083    Research Area: Frequency bin

29. Entanglement engineering of optomechanical systems by reinforcement learning,

    L.-L. Ye, C. Arenz, J. M. Lukens, Y.-C. Lai.

    APL Machine Learning 3, 016107 (2025)    doi: 10.1063/5.0233470

30. Comparing homodyne and heterodyne tomography of quantum states of light,

    R. P. Fernandes, A. J. Pizzimenti, C. N. Gagatsos, J. M. Lukens.

    arXiv:2512.17031 (2025)    doi: 10.48550/arXiv.2512.17031

31. Real-time heralded non-Gaussian teleportation resource-state generator,

    J. C. Chapman, Y. Zhang, J. M. Lukens, A. M. Marino, E. Dumitrescu, Y. Wang, N. A. Peters.

    arXiv:2512.08429 (2025)    doi: 10.48550/arXiv.2512.08429

32. Scalable Bayesian Monte Carlo: fast uncertainty estimation beyond deep ensembles,

    X. Liang, J. M. Lukens, S. Lohani, B. T. Kirby, T. A. Searles, X. Qiu, K. J. H. Law.

    arXiv:2505.13585 (2025)    doi: 10.48550/arXiv.2505.13585

33. Comparison of parallel SMC and MCMC for Bayesian deep learning,

    X. Liang, S. Lohani, J. M. Lukens, B. T. Kirby T. A. Searles, K. J. H. Law.

    arXiv:2402.06173 (2025)    doi: 10.48550/arXiv.2402.06173

34. Effective density matrices in entangled photon detection,

    T. Truong, C. Arenz, J. M. Lukens.

    QW4B.3, Optica Quantum 2.0, San Francisco, CA    doi: 10.1364/QUANTUM.2025.QW4B.3

35. Comparing homodyne and heterodyne tomography of non-Gaussian quantum states of light via classical Fisher information,

    R. P. Fernandes, A. J. Pizzimenti, C. N. Gagatsos, J. M. Lukens.

    QM2C.2, Optica Quantum 2.0, San Francisco, CA    doi: 10.1364/QUANTUM.2025.QM2C.2

36. Automatic protection switching in an entanglement-based quantum network,

    M. Alshowkan, J. M. Lukens, H.-H. Lu, N. A. Peters.

    FF115-6, CLEO, Long Beach, CA    doi: 10.1364/CLEO_FS.2025.FF115_6    Research Area: Quantum Networking

37. Ancilla-assisted process tomography of a deployed fiber link,

    A. Rahman, N. I. Wasserbeck, Z. Goisman, R. P. Fernandes, B. T. Kirby, M. Alshowkan, C. Kurtz, J. M. Lukens.

    FF119-1, CLEO, Long Beach, CA    doi: 10.1364/CLEO_FS.2025.FF119_1    Research Area: Quantum Networking

38. Regularizing least squares quantum state tomography with classical shadows,

    Z. Zhu, J. M. Lukens, B. T. Kirby.

    FF120-6, CLEO, Long Beach, CA    doi: 10.1364/CLEO_FS.2025.FF120_6

39. Nonlocal modulation of entangled photons with distributed RF clocks,

    J. M. Lukens, S. D. Chapman, S. Seshadri, N. A. Peters, J. D. McKinney, A. M. Weiner, H.-H. Lu.

    FF102-2, CLEO, Long Beach, CA    doi: 10.1364/CLEO_FS.2025.FF102_2    Research Area: Frequency bin

40. 3 GHz-spaced frequency beam splitter using an on-chip pulse shaper,

    C.-Y. Su, K. Wu, L. M. Cohen, S. Fatema, N. B. Lingaraju, H.-H. Lu, A. M. Weiner, J. M. Lukens, J. D. McKinney.

    FF118-1, CLEO, Long Beach, CA    doi: 10.1364/CLEO_FS.2025.FF118_1    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

41. Unorthodox parallelization for Bayesian quantum state estimation,

    H. H. Nguyen, K. J. H. Law, J. M. Lukens.

    PS200-107, CLEO, Long Beach, CA    doi: 10.1364/CLEO_AT.2025.JPS200_107

42. Manipulation of narrowband biphoton temporal correlations using an on-chip spectral shaper,

    L. M. Cohen, K. Wu, K. V. Myilswamy, N. B. Lingaraju, H.-H. Lu, J. M. Lukens, A. M. Weiner.

    FF107-2, CLEO, Long Beach, CA    doi: 10.1364/CLEO_FS.2025.FF107_2    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

43. A single-photon polarization-frequency controlled-NOT gate,

    H.-H. Lu, J. M. Lukens, M. Alshowkan, B. T. Kirby, N. A. Peters.

    FF105-3, CLEO, Long Beach, CA    doi: 10.1364/CLEO_FS.2025.FF105_3    Research Area: Frequency bin Network Integrated Photonics

44. Testbed and experiments for quantum-conventional networking,

    N. S. V. Rao, M. Alshowkan, J. C. Chapman, H.-H. Lu, N. A. Peters, J. M. Lukens, G. Xue, S. Guha, E. Van Milligen, D. Towsley, G. Vardayan, L. Bacciottini, L. Fan.

    pp. 151–158, IEEE International Conference on Quantum Communications, Networking, and Computing (QCNC), Nara, Japan    doi: 10.1109/QCNC64685.2025.00031    Research Area: Quantum Networking

45. A tale of two regularizers: classical shadows and regularized least squares for quantum estimation,

    Z. Zhu, J. M. Lukens, B. T. Kirby.

    Poster 67, 28th International Conference on Quantum Information Processing (QIP), Raleigh, NC

46. On the connection between least squares, regularization, and classical shadows,

    Z. Zhu, J. M. Lukens, B. T. Kirby.

    Quantum 8, 1455 (2024)    doi: 10.22331/q-2024-08-29-1455

47. Building a controlled-NOT gate between polarization and frequency,

    H.-H. Lu, J. M. Lukens, M. Alshowkan, B. T. Kirby, N. A. Peters.

    Optica Quantum 2, 282–287 (2024)    doi: 10.1364/opticaq.525837    Research Area: Frequency bin Network Integrated Photonics

48. CMOS photonic integrated source of ultrabroadband polarization-entangled photons,

    A. Miloshevsky, L. M. Cohen, K. V. Myilswamy, M. Alshowkan, S. Fatema, H.-H. Lu, A. M. Weiner, J. M. Lukens.

    Optica Quantum 2, 254–259 (2024)    doi: 10.1364/opticaq.521418    Research Area: Bayesian Statistics

49. Andrew M. Weiner (1958–2024),

    J. D. McKinney, J. M. Lukens, A. Boltasseva, V. M. Shalaev.

    Nature Photonics 18, 400–401 (2024)    doi: 10.1038/s41566-024-01429-8

50. Procrustean entanglement concentration in quantum-classical networking,

    H.-H. Lu, M. Alshowkan, J. Alnas, J. M. Lukens, N. A. Peters.

    Physical Review Applied 21, 044027 (2024)    doi: 10.1103/physrevapplied.21.044027    Research Area: Quantum Networking

51. Foundry-fabricated photonic integrated circuit for flex-grid entanglement distribution,

    A. Miloshevsky, H.-H. Lu, L. M. Cohen, K. V. Myilswamy, S. Fatema, M. Alshowkan, A. M. Weiner, J. M. Lukens.

    JW2A.139, CLEO, Charlotte, NC    doi: 10.1364/CLEO_AT.2024.JW2A.139    Research Area: Quantum Networking Bayesian Statistics

52. Shaping of time-resolved biphoton correlations with a microresonator-based spectral shaper,

    L. M. Cohen, K. Wu, K. V. Myilswamy, N. B. Lingaraju, H.-H. Lu, J. M. Lukens, A. M. Weiner.

    FTu4F.4, CLEO, Charlotte, NC    doi: 10.1364/CLEO_FS.2024.FTu4F.4    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

53. Frequency comb of spectrally pure biphotons using time-varying cavities,

    J. A. Gaines, K. V. Myilswamy, J. M. Lukens, A. M. Weiner.

    FTu4F.1, CLEO, Charlotte, NC    doi: 10.1364/CLEO_FS.2024.FTu4F.1    Research Area: Frequency bin

54. Procrustean entanglement concentration for quantum-classical coexistence,

    H.-H. Lu, M. Alshowkan, J. Alnas, J. M. Lukens, N. A. Peters.

    FTu3F.3, CLEO, Charlotte, NC    doi: 10.1364/CLEO_FS.2024.FTu3F.3    Research Area: Quantum Networking

55. Polarization–frequency hyperentangled photons: generation, characterization, and manipulation,

    H.-H. Lu, J. M. Lukens, K. V. Myilswamy, M. Alshowkan, B. T. Kirby, A. M. Weiner, N. A. Peters.

    130280H, SPIE Defense + Commercial Sensing, National Harbor, MD    doi: 10.1117/12.3021561    Research Area: Frequency bin Network Integrated Photonics

56. CMOS photonic integrated circuit for flex-grid polarization entanglement,

    A. Miloshevsky, H.-H. Lu, L. M. Cohen, K. V. Myilswamy, S. Fatema, M. Alshowkan, A. M. Weiner, J. M. Lukens.

    Tu3C.6, Optical Fiber Communication Conference, San Diego, CA    doi: 10.1364/OFC.2024.Tu3C.6    Research Area: Quantum Networking Bayesian Statistics

57. Toward quantum networking with frequency-bin qudits,

    K. V. Myilswamy, S. Seshadri, H.-H. Lu, J. Liu, T. J. Kippenberg, J. M. Lukens, A. M. Weiner.

    129111A, SPIE Photonics West, San Francisco, CA    doi: 10.1117/12.3008755    Research Area: Frequency bin Quantum Networking

58. Frequency-bin photonic quantum information,

    H.-H. Lu, M. Liscidini, A. L. Gaeta, A. M. Weiner, J. M. Lukens.

    Optica 10, 1655–1671 (2023)    doi: 10.1364/optica.506096    Research Area: Frequency bin

59. Characterization of quantum frequency processors,

    H.-H. Lu, N. A. Peters, A. M. Weiner, J. M. Lukens.

    IEEE Journal of Selected Topics in Quantum Electronics 29, 6300112 (2023)    doi: 10.1109/jstqe.2023.3266662    Research Area: Frequency bin Network Integrated Photonics

60. Generation and characterization of ultrabroadband polarization–frequency hyperentangled photons,

    H.-H. Lu, M. Alshowkan, K. V. Myilswamy, A. M. Weiner, J. M. Lukens, N. A. Peters.

    Optics Letters 48, 6031–6034 (2023)    doi: 10.1364/ol.503127    Research Area: Frequency bin Quantum Networking

61. Investigation of modified uni-traveling carrier photodiode for cryogenic microwave photonic links,

    C. Moseley, S. Bolton, J. M. Lukens, Y.-Y. Pai, M. Chilcote, B. J. Lawrie, S. Sun, M. Woodson, S. B. Estrella, S. M. Kim, P. Kung.

    Optics Continuum 2, 2215–2224 (2023)    doi: 10.1364/optcon.502533

62. Demonstration of machine-learning-enhanced Bayesian quantum state estimation,

    S. Lohani, J. M. Lukens, A. A. Davis, A. Khannejad, S. Regmi, D. E. Jones, R. T. Glasser, T. A. Searles, B. T. Kirby.

    New Journal of Physics 25, 083009 (2023)    doi: 10.1088/1367-2630/ace6c8

63. Coexistent quantum channel characterization using spectrally resolved Bayesian quantum process tomography,

    J. C. Chapman, J. M. Lukens, M. Alshowkan, N. Rao, B. T. Kirby, N. A. Peters.

    Physical Review Applied 19, 044026 (2023)    doi: 10.1103/physrevapplied.19.044026    Research Area: Quantum Networking

64. Time-resolved Hanbury Brown–Twiss interferometry of on-chip biphoton frequency combs using Vernier phase modulation,

    K. V. Myilswamy, S. Seshadri, H.-H. Lu, M. S. Alshaykh, J. Liu, T. J. Kippenberg, A. M. Weiner, J. M. Lukens.

    Physical Review Applied 19, 034019 (2023)    doi: 10.1103/physrevapplied.19.034019    Research Area: Frequency bin Bayesian Statistics

65. Dimension-adaptive machine-learning-based quantum state reconstruction,

    S. Lohani, S. Regmi, J. M. Lukens, R. T. Glasser, T. A. Searles, B. T. Kirby.

    Quantum Machine Intelligence 5, 1 (2023)    doi: 10.1007/s42484-022-00088-8

66. Foundry-fabricated silicon source of broadband polarization entanglement,

    A. Miloshevsky, L. M. Cohen, K. V. Myilswamy, S. Fatema, M. Alshowkan, H.-H. Lu, A. M. Weiner, J. M. Lukens.

    PD5, IEEE Photonics Conference, Orlando, FL    doi: 10.1109/IPC57732.2023.10360784    Research Area: Bayesian Statistics

67. Procrustean entanglement concentration in dense wavelength-division multiplexing,

    H.-H. Lu, M. Alshowkan, J. Alnas, J. M. Lukens, N. A. Peters.

    WA1.3, IEEE Photonics Conference, Orlando, FL    doi: 10.1109/IPC57732.2023.10360731    Research Area: Quantum Networking

68. Tomography of ultrabroadband polarization-frequency hyperentangled photons,

    H.-H. Lu, M. Alshowkan, K. V. Myilswamy, A. M. Weiner, J. M. Lukens, N. A. Peters.

    WA1.2, IEEE Photonics Conference, Orlando, FL    doi: 10.1109/IPC57732.2023.10360476    Research Area: Frequency bin

69. Bayesian quantum state reconstruction with a learning-based tuned prior,

    S. Regmi, A. N. Blackwell, A. Khannejad, S. Lohani, J. M. Lukens, R. T. Glasser, B. T. Kirby, T. A. Searles.

    QM4B.3, Optica Quantum 2.0, Denver, CO    doi: 10.1364/QUANTUM.2023.QM4B.3

70. Throughput measurements and capacity estimations for quantum connections,

    N. S. V. Rao, M. Alshowkan, J. C. Chapman, N. A. Peters, J. M. Lukens.

    10226117, IEEE NetSciQCom, Hoboken, NJ    doi: 10.1109/INFOCOMWKSHPS57453.2023.10226117    Research Area: Quantum Networking

71. Polarization-entangled source for flex-grid C+L-band quantum networks,

    M. Alshowkan, J. M. Lukens, H.-H. Lu, B. T. Kirby, B. P. Williams, W. P. Grice, N. A. Peters.

    FM2L.2, CLEO, San Jose, CA    doi: 10.1364/CLEO_FS.2023.FM2L.2    Research Area: Quantum Networking

72. Modeling integrated quantum frequency processors towards robust quantum networks,

    B. E. Nussbaum, A. J. Pizzimenti, N. B. Lingaraju, H.-H. Lu, J. M. Lukens.

    124460I, SPIE Photonics West, San Francisco, CA    doi: 10.1117/12.2649212    Research Area: Frequency bin Quantum Networking Network Integrated Photonics Bayesian Statistics

73. Coexistent quantum channel characterization using quantum process tomography with spectrally resolved detection,

    J. C. Chapman, J. M. Lukens, M. Alshowkan, N. S. V. Rao, B. T. Kirby, N. A. Peters.

    124460F, SPIE Photonics West, San Francisco, CA    doi: 10.1117/12.2655801    Research Area: Quantum Networking

74. Biphoton spectral quantum interference for information processing and delay metrology,

    S. Seshadri, H.-H. Lu, J. M. Lukens, A. M. Weiner.

    1244605, SPIE Photonics West, San Francisco, CA    doi: 10.1117/12.2656881    Research Area: Frequency bin Network Integrated Photonics

75. Design methodologies for integrated quantum frequency processors,

    B. E. Nussbaum, A. J. Pizzimenti, N. B. Lingaraju, H.-H. Lu, J. M. Lukens.

    Journal of Lightwave Technology 40, 7648–7657 (2022)    doi: 10.1109/jlt.2022.3192759    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

76. Broadband polarization-entangled source for C+L-band flex-grid quantum networks,

    M. Alshowkan, J. M. Lukens, H.-H. Lu, B. T. Kirby, B. P. Williams, W. P. Grice, N. A. Peters.

    Optics Letters 47, 6480–6483 (2022)    doi: 10.1364/ol.471363    Research Area: Quantum Networking

77. Complete frequency-bin Bell basis synthesizer,

    S. Seshadri, H.-H. Lu, D. E. Leaird, A. M. Weiner, J. M. Lukens.

    Physical Review Letters 129, 230505 (2022)    doi: 10.1103/physrevlett.129.230505    Research Area: Frequency bin Network Integrated Photonics

78. A wavelength-multiplexing toolkit for quantum networking,

    H.-H. Lu, M. Alshowkan, N. A. Peters, J. M. Lukens, K. V. Myilswamy, A. M. Weiner, N. B. Lingaraju.

    Optics & Photonics News 33(11), 47 (2022)    doi: https://www.optica-opn.org/home/articles/volume_33/december_2022/extras/a_wavelength-multiplexing_toolkit_for_quantum_netw/    Research Area: Quantum Networking

79. Data-centric machine learning in quantum information science,

    S. Lohani, J. M. Lukens, R. T. Glasser, T. A. Searles, B. T. Kirby.

    Machine Learning: Science and Technology 3, 04LT01 (2022)    doi: 10.1088/2632-2153/ac9036

80. Bayesian estimation of oscillator parameters: toward anomaly detection and cyber-physical system security,

    J. M. Lukens, A. Passian, S. Yoginath, K. J. H. Law, J. A. Dawson.

    Sensors 22, 6112 (2022)    doi: 10.3390/s22166112

81. Bayesian tomography of high-dimensional on-chip biphoton frequency combs with randomized measurements,

    H.-H. Lu, K. V. Myilswamy, R. S. Bennink, S. Seshadri, M. S. Alshaykh, J. Liu, T. J. Kippenberg, D. E. Leaird, A. M. Weiner, J. M. Lukens.

    Nature Communications 13, 4338 (2022)    doi: 10.1038/s41467-022-31639-z    Research Area: Frequency bin Bayesian Statistics

82. Optimal resource allocation for flexible-grid entanglement distribution networks,

    J. Alnas, M. Alshowkan, N. S. V. Rao, N. A. Peters, J. M. Lukens.

    Optics Express 30, 24375–24393 (2022)    doi: 10.1364/oe.458358    Research Area: Quantum Networking

83. Advanced architectures for high-performance quantum networking,

    M. Alshowkan, P. G. Evans, B. P. Williams, N. S. V. Rao, C. E. Marvinney, Y.-Y. Pai, B. J. Lawrie, N. A. Peters, J. M. Lukens.

    Journal of Optical Communications and Networking 14, 493–499 (2022)    doi: 10.1364/jocn.450201    Research Area: Quantum Networking

84. Bayesian homodyne and heterodyne tomography,

    J. C. Chapman, J. M. Lukens, B. Qi, R. C. Pooser, N. A. Peters.

    Optics Express 30, 15184–15200 (2022)    doi: 10.1364/oe.456597

85. High-dimensional discrete Fourier transform gates with the quantum frequency processor,

    H.-H. Lu, N. B. Lingaraju, D. E. Leaird, A. M. Weiner, J. M. Lukens.

    Optics Express 30, 10126–10134 (2022)    doi: 10.1364/oe.454677    Research Area: Frequency bin Network Integrated Photonics

86. Bell state analyzer for spectrally distinct photons,

    N. B. Lingaraju, H.-H. Lu, D. E. Leaird, S. Estrella, J. M. Lukens, A. M. Weiner.

    Optica 9, 280–283 (2022)    doi: 10.1364/optica.443302    Research Area: Frequency bin Network Integrated Photonics

87. Site-to-site tunnels authenticated by quantum keys,

    N. S. V. Rao, M. Alshowkan, A. Al-Najjar, S. E. Hicks, P. G. Evans, J. M. Lukens, N. A. Peters.

    WF2.4, IEEE Photonics Conference, Vancouver, Canada    doi: 10.1109/IPC53466.2022.9975775    Research Area: Quantum Networking

88. Modeling integrated quantum frequency processors,

    B. E. Nussbaum, A. J. Pizzimenti, N. B. Lingaraju, H.-H. Lu, J. M. Lukens.

    TuG2.3, IEEE Photonics Conference, Vancouver, Canada    doi: 10.1109/IPC53466.2022.9975677    Research Area: Frequency bin Network Integrated Photonics Bayesian Statistics

89. Scalable and secure architecture for quantum networks,

    M. Alshowkan, P. G. Evans, B. P. Williams, N. S. V. Rao, C. E. Marvinney, Y.-Y. Pai, B. J. Lawrie, N. A. Peters, J. M. Lukens.

    MB1.4, IEEE Photonics Conference, Vancouver, Canada    doi: 10.1109/IPC53466.2022.9975679    Research Area: Quantum Networking

90. Optimizing resource allocation in flex-grid entanglement distribution networks,

    J. Alnas, M. Alshowkan, N. S. V. Rao, N. A. Peters, J. M. Lukens.

    MB1.3, IEEE Photonics Conference, Vancouver, Canada    doi: 10.1109/IPC53466.2022.9975760    Research Area: Quantum Networking

91. Time-resolved HBT interferometry of an integrated pulsed biphoton frequency comb,

    S. Seshadri, K. V. Myilswamy, J. Liu, T. J. Kippenberg, A. M. Weiner, J. M. Lukens.

    LM3F.1, Frontiers in Optics, Rochester, NY    doi: 10.1364/LS.2022.LM3F.1    Research Area: Frequency bin Bayesian Statistics

92. Quantum delay metrology with complete frequency-bin Bell basis synthesizer,

    S. Seshadri, H.-H. Lu, D. E. Leaird, A. M. Weiner, J. M. Lukens.

    JTu4A.30, Frontiers in Optics, Rochester, NY    doi: 10.1364/FIO.2022.JTu4A.30    Research Area: Frequency bin Network Integrated Photonics

93. Investigation of microwave transducers for linearity dependence and applications in quantum networking,

    S. Bolton, J. M. Lukens, C. Moseley, M. Woodson, S. Estrella, S. Sun, S. M. Kim, P. Kung.

    122380C, SPIE Optical Engineering + Applications, San Diego, CA    doi: 10.1117/12.2633522    Research Area: Quantum Networking

94. Frequency-bin Bell state generation via successive single and dual spectral-line pumping,

    S. Seshadri, H.-H. Lu, D. E. Leaird, A. M. Weiner, J. M. Lukens.

    FF4I.2, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2022.FF4I.2    Research Area: Frequency bin

95. A Bayesian approach to nanoparticle characterization,

    J. M. Lukens, A. Passian.

    FTh2B.6, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2022.FTh2B.6

96. Learning-based quantum state reconstruction using biased quantum state distributions,

    S. Lohani, J. M. Lukens, D. E. Jones, R. T. Glasser, T. A. Searles, B. T. Kirby.

    AW4P.2, CLEO, San Jose, CA    doi: 10.1364/CLEO_AT.2022.AW4P.2

97. Bayesian optical heterodyne tomography,

    J. C. Chapman, J. M. Lukens, B. Qi, R. C. Pooser, N. A. Peters.

    FTu5A.5, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2022.FTu5A.5

98. Non-Gaussian state design with the quantum frequency processor,

    A. J. Pizzimenti, J. M. Lukens, H.-H. Lu, N. A. Peters, S. Guha, C. Gagatsos.

    FTu5A.3, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2022.FTu5A.3    Research Area: Frequency bin Network Integrated Photonics

99. Time-resolved second-order coherence of an integrated biphoton frequency comb,

    K. V. Myilswamy, S. Seshadri, J. Liu, T. J. Kippenberg, A. M. Weiner, J. M. Lukens.

    FTu5A.2, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2022.FTu5A.2    Research Area: Frequency bin Bayesian Statistics

100. Synchronizing a quantum local area network with White Rabbit,

     M. Alshowkan, P. G. Evans, B. P. Williams, N. S. V. Rao, C. E. Marvinney, Y.-Y. Pai, B. J. Lawrie, N. A. Peters, J. M. Lukens.

     FM1C.4, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2022.FM1C.4    Research Area: Quantum Networking

101. Quantum networking and communications at Oak Ridge National Laboratory,

     N. A. Peters, M. Alshowkan, J. C. Chapman, P. G. Evans, D. A. Hooper, W. P. Grice, H.-H. Lu, J. M. Lukens, R. C. Pooser, C. E. Marvinney, A. Miloshevsky, B. P. Williams, B. A. Wilson.

     979780, IEEE INFOCOMM    doi: 10.1109/INFOCOMWKSHPS54753.2022.9797980    Research Area: Quantum Networking

102. Quantum state reconstruction with biased distributions of quantum states,

     S. Lohani, J. M. Lukens, D. E. Jones, T. A. Searles, R. T. Glasser, B. T. Kirby.

     N35.00003, APS March Meeting, Chicago, IL

103. A deployed quantum local area network with flex-grid technology,

     M. Alshowkan, B. P. Williams, P. G. Evans, N. S. V. Rao, E. M. Simmerman, H.-H. Lu, N. B. Lingaraju, A. M. Weiner, C. E. Marvinney, Y.-Y. Pai, B. J. Lawrie, N. A. Peters, J. M. Lukens.

     A35.00004, APS March Meeting, Chicago, IL    Research Area: Quantum Networking

104. Learning from biased distributions of quantum states,

     S. Lohani, J. M. Lukens, D. E. Jones, T. A. Searles, R. T. Glasser, B. T. Kirby.

     Poster 372, 25th Annual Conference on Quantum Information Processing, Pasadena, CA

105. Lessons learned on the interface between quantum and conventional networking,

     M. Alshowkan, N. S. V. Rao, J. C. Chapman, B. P. Williams, P. G. Evans, R. C. Pooser, J. M. Lukens, N. A. Peters.

     Communications in Computer and Information Science 1512, 262–279 (2022)    doi: 10.1007/978-3-030-96498-6_15    Research Area: Quantum Networking

106. Non-Gaussian photonic state engineering with the quantum frequency processor,

     A. J. Pizzimenti, J. M. Lukens, H.-H. Lu, N. A. Peters, S. Guha, C. N. Gagatsos.

     Physical Review A 104, 062437 (2021)    doi: 10.1103/physreva.104.062437    Research Area: Frequency bin Network Integrated Photonics

107. Improving application performance with biased distributions of quantum states,

     S. Lohani, J. M. Lukens, D. E. Jones, T. A. Searles, R. T. Glasser, B. T. Kirby.

     Physical Review Research 3, 043145 (2021)    doi: 10.1103/physrevresearch.3.043145

108. Bayesian inference for plasmonic nanometrology,

     J. M. Lukens, A. Passian.

     Physical Review A 104, 053501 (2021)    doi: 10.1103/physreva.104.053501

109. Reconfigurable quantum local area network over deployed fiber,

     M. Alshowkan, B. P. Williams, P. G. Evans, N. S. V. Rao, E. M. Simmerman, H.-H. Lu, N. B. Lingaraju, A. M. Weiner, C. E. Marvinney, Y.-Y. Pai, B. J. Lawrie, N. A. Peters, J. M. Lukens.

     PRX Quantum 2, 040304 (2021)    doi: 10.1103/prxquantum.2.040304    Research Area: Quantum Networking

110. Intensity-modulated fiber-optic voltage sensors for power distribution systems,

     J. M. Lukens, N. Lagakos, V. Kaybulkin, C. J. Vizas, D. J. King.

     IEEE Photonics Technology Letters 33, 880–883 (2021)    doi: 10.1109/lpt.2021.3052649

111. A Bayesian analysis of classical shadows,

     J. M. Lukens, K. J. H. Law, R. S. Bennink.

     npj Quantum Information 7, 113 (2021)    doi: 10.1038/s41534-021-00447-6

112. Adaptive bandwidth management for entanglement distribution in quantum networks,

     N. B. Lingaraju, H.-H. Lu, S. Seshadri, D. E. Leaird, A. M. Weiner, J. M. Lukens.

     Optica 8, 329–332 (2021)    doi: 10.1364/optica.413657    Research Area: Quantum Networking

113. Biased distributions of random quantum states for high-performance quantum state reconstruction,

     S. Lohani, J. M. Lukens, D. E. Jones, T. A. Searles, R. T. Glasser, B. T. Kirby.

     Workshop on Innovative Nanoscale Devices and Systems (WINDS), Waikoloa, HI

114. Randomized tomography of on-chip biphoton frequency combs,

     K. V. Myilswamy, H.-H. Lu, S. Seshadri, M. S. Alshaykh, J. Liu, D. E. Leaird, T. J. Kippenberg, A. M. Weiner, J. M. Lukens.

     LM6E.3, Frontiers in Optics    doi: 10.1364/LS.2021.LM6E.3    Research Area: Frequency bin Bayesian Statistics

115. Remote state preparation in a reconfigurable quantum local area network,

     M. Alshowkan, B. P. Williams, P. G. Evans, N. S. V. Rao, E. M. Simmerman, H.-H. Lu, N. B. Lingaraju, A. M. Weiner, N. A. Peters, J. M. Lukens.

     TuD3.3, IEEE Photonics Conference    doi: 10.1109/IPC48725.2021.9593052    Research Area: Quantum Networking

116. A reconfigurable quantum local area network over deployed fiber,

     M. Alshowkan, B. P. Williams, P. G. Evans, N. S. V. Rao, E. M. Simmerman, H.-H. Lu, N. B. Lingaraju, A. M. Weiner, N. A. Peters, J. M. Lukens.

     FF2J.4, CLEO    doi: 10.1364/CLEO_QELS.2021.FF2J.4    Research Area: Quantum Networking

117. Classical shadows and Bayesian mean estimation: a comparison,

     J. M. Lukens, K. J. H. Law, R. S. Bennink.

     FW3N.3, CLEO    doi: 10.1364/CLEO_QELS.2021.FW3N.3

118. Scaling the discrete Fourier transform gate in the quantum frequency processor,

     H.-H. Lu, N. B. Lingaraju, D. E. Leaird, A. M. Weiner, J. M. Lukens.

     FTu1N.8, CLEO    doi: 10.1364/CLEO_QELS.2021.FTu1N.8    Research Area: Frequency bin Network Integrated Photonics

119. A programmable electro-optic Bell-state analyzer for spectrally distinguishable photons,

     N. B. Lingaraju, H.-H. Lu, D. E. Leaird, S. Estrella, J. M. Lukens, A. M. Weiner.

     FTu1N.5, CLEO    doi: 10.1364/CLEO_QELS.2021.FTu1N.5    Research Area: Frequency bin Network Integrated Photonics

120. High-dimensional frequency-bin tomography with random measurements,

     H.-H. Lu, A. M. Weiner, J. M. Lukens.

     FM1N.2, CLEO    doi: 10.1364/CLEO_QELS.2021.FM1N.2    Research Area: Frequency bin

121. Fully arbitrary control of frequency-bin qubits,

     H.-H. Lu, E. M. Simmerman, P. Lougovski, A. M. Weiner, J. M. Lukens.

     Physical Review Letters 125, 120503 (2020)    doi: 10.1103/physrevlett.125.120503    Research Area: Frequency bin Network Integrated Photonics

122. Agile frequency transformations for dense wavelength-multiplexed communications,

     H.-H. Lu, B. Qi, B. P. Williams, P. Lougovski, A. M. Weiner, J. M. Lukens.

     Optics Express 28, 20379–20390 (2020)    doi: 10.1364/oe.396142    Research Area: Quantum Networking Network Integrated Photonics

123. A practical and efficient approach for Bayesian quantum state estimation,

     J. M. Lukens, K. J. H. Law, A. Jasra, P. Lougovski.

     New Journal of Physics 22, 063038 (2020)    doi: 10.1088/1367-2630/ab8efa

124. Efficient compressive and Bayesian characterization of biphoton frequency spectra,

     E. M. Simmerman, H.-H. Lu, A. M. Weiner, J. M. Lukens.

     Optics Letters 45, 2886–2889 (2020)    doi: 10.1364/ol.392694    Research Area: Frequency bin

125. All-optical frequency processor for networking applications,

     J. M. Lukens, H.-H. Lu, B. Qi, P. Lougovski, A. M. Weiner, B. P. Williams.

     Journal of Lightwave Technology 38, 1678–1687 (2020)    doi: 10.1109/jlt.2019.2953363    Research Area: Quantum Networking Network Integrated Photonics

126. Quantum memristors in frequency-entangled optical fields,

     T. Gonzalez-Raya, J. M. Lukens, L. C. Céleri, M. Sanz.

     Materials 13, 864 (2020)    doi: 10.3390/ma13040864    Research Area: Frequency bin Network Integrated Photonics

127. A Bell-state analyzer for photonic frequency,

     N. B. Lingaraju, H.-H. Lu, D. E. Leaird, S. Estrella, J. M. Lukens, A. M. Weiner.

     PD4, IEEE Photonics Conference    doi: 10.1109/IPC47351.2020.9252223    Research Area: Frequency bin Network Integrated Photonics

128. Computationally efficient Bayesian quantum state tomography,

     J. M. Lukens, K. J. H. Law, A. Jasra, P. Lougovski.

     ThA3.4, IEEE Photonics Conference    doi: 10.1109/IPC47351.2020.9252416

129. Characterization and equalization of intensity-modulated voltage sensors,

     J. M. Lukens, N. Lagakos, V. Kaybulkin, C. J. Vizas, D. J. King.

     ThF2.5, IEEE Photonics Conference    doi: 10.1109/IPC47351.2020.9252543

130. Bayesian reconstruction of biphoton frequency correlations,

     E. M. Simmerman, H.-H. Lu, A. M. Weiner, J. M. Lukens.

     MI2.5, IEEE Photonics Conference    doi: 10.1109/IPC47351.2020.9252386    Research Area: Frequency bin

131. Arbitrary single-qubit transformations on a quantum frequency processor,

     H.-H. Lu, E. M. Simmerman, P. Lougovski, A. M. Weiner, J. M. Lukens.

     MI2.1, IEEE Photonics Conference    doi: 10.1109/IPC47351.2020.9252346    Research Area: Frequency bin Network Integrated Photonics

132. Harnessing entanglement in polarization state and frequency-bin for quantum communication and networking,

     N. B. Lingaraju, N. O'Malley, D. E. Jones, O. E. Sandoval, H. N. Azzouz, D. E. Leaird, J. M. Lukens, M. Brodsky, A. M. Weiner.

     QW6A.15, OSA Quantum 2.0    doi: 10.1364/QUANTUM.2020.QW6A.15    Research Area: Frequency bin Quantum Networking

133. Flex-grid spectrum allocation for entanglement distribution in quantum networks,

     N. B. Lingaraju, H.-H. Lu, S. Seshadri, D. E. Leaird, A. M. Weiner, J. M. Lukens.

     QW6A.9, OSA Quantum 2.0    doi: 10.1364/QUANTUM.2020.QW6A.9    Research Area: Quantum Networking

134. All-optical frequency hopping and broadcasting in wavelength-multiplexed channels,

     J. M. Lukens, H.-H. Lu, B. Qi, P. Lougovski, A. M. Weiner, B. P. Williams.

     SF2L.2, CLEO    doi: 10.1364/CLEO_SI.2020.SF2L.2    Research Area: Quantum Networking Network Integrated Photonics

135. Polarization diversity phase modulator for frequency-bin operations with hyperentangled biphoton frequency combs,

     N. B. Lingaraju, N. O'Malley, D. E. Jones, O. E. Sandoval, H. N. Azzouz, D. E. Leaird, J. M. Lukens, M. Brodsky, A. M. Weiner.

     FF1D.5, CLEO    doi: 10.1364/CLEO_QELS.2020.FF1D.5    Research Area: Frequency bin Network Integrated Photonics

136. Adaptive bandwidth management for entanglement distribution in a fully-connected fiber-optic network,

     N. B. Lingaraju, H.-H. Lu, S. Seshadri, D. E. Leaird, A. M. Weiner, J. M. Lukens.

     FTh1D.2, CLEO    doi: 10.1364/CLEO_QELS.2020.FTh1D.2    Research Area: Quantum Networking

137. Compressive characterization of biphoton frequency spectra,

     E. M. Simmerman, H.-H. Lu, A. M. Weiner, J. M. Lukens.

     FM2C.6, CLEO    doi: 10.1364/CLEO_QELS.2020.FM2C.6    Research Area: Frequency bin

138. Quantum frequency combs and Hong–Ou–Mandel interferometry: the role of spectral phase coherence,

     N. B. Lingaraju, H.-H. Lu, S. Seshadri, P. Imany, D. E. Leaird, J. M. Lukens, A. M. Weiner.

     Optics Express 27, 38683–38697 (2019)    doi: 10.1364/oe.379749    Research Area: Frequency bin

139. Quantum information processing with frequency-comb qudits,

     H.-H. Lu, A. M. Weiner, P. Lougovski, J. M. Lukens.

     IEEE Photonics Technology Letters 31, 1858–1861 (2019)    doi: 10.1109/lpt.2019.2942136    Research Area: Frequency bin Network Integrated Photonics

140. Quantum information processing in the frequency domain,

     H.-H. Lu, P. Imany, N. B. Lingaraju, M. S. Alshaykh, O. D. Odele, A. J. Moore, D. E. Leaird, M. Qi, A. M. Weiner, J. M. Lukens, B. P. Williams, N. A. Peters, P. Lougovski, J. A. Jaramillo-Villegas.

     Optics & Photonics News 30(11), 43 (2019)    doi: https://www.optica-opn.org/home/articles/volume_30/december_2019/extras/frequency-domain_quantum_information_processing/    Research Area: Frequency bin Network Integrated Photonics

141. Simulations of subatomic many-body physics on a quantum frequency processor,

     H.-H. Lu, N. Klco, J. M. Lukens, T. D. Morris, A. Bansal, A. Ekström, G. Hagen, T. Papenbrock, A. M. Weiner, M. J. Savage, P. Lougovski.

     Physical Review A 100, 012320 (2019)    doi: 10.1103/physreva.100.012320    Research Area: Frequency bin Network Integrated Photonics

142. High-dimensional optical quantum logic in large operational spaces,

     P. Imany, J. A. Jaramillo-Villegas, M. S. Alshaykh, J. M. Lukens, O. D. Odele, A. J. Moore, D. E. Leaird, M. Qi, A. M. Weiner.

     npj Quantum Information 5, 59 (2019)    doi: 10.1038/s41534-019-0173-8    Research Area: Frequency bin Network Integrated Photonics

143. Quantum secret sharing with polarization-entangled photon pairs,

     B. P. Williams, J. M. Lukens, N. A. Peters, B. Qi, W. P. Grice.

     Physical Review A 99, 062311 (2019)    doi: 10.1103/physreva.99.062311    Research Area: Quantum Networking

144. A controlled-NOT gate for frequency-bin qubits,

     H.-H. Lu, J. M. Lukens, B. P. Williams, P. Imany, N. A. Peters, A. M. Weiner, P. Lougovski.

     npj Quantum Information 5, 24 (2019)    doi: 10.1038/s41534-019-0137-z    Research Area: Frequency bin Network Integrated Photonics

145. Quantum optical microcombs,

     M. Kues, C. Reimer, J. M. Lukens, W. J. Munro, A. M. Weiner, D. J. Moss, R. Morandotti.

     Nature Photonics 13, 170–179 (2019)    doi: 10.1038/s41566-019-0363-0    Research Area: Frequency bin Bayesian Statistics

146. All-optical processing with dynamic frequency transformations,

     H.-H. Lu, J. M. Lukens, B. Qi, P. Lougovski, A. M. Weiner, B. P. Williams.

     8908514, IEEE Photonics Conference, San Antonio, TX    doi: 10.1109/IPCon.2019.8908514    Research Area: Quantum Networking Network Integrated Photonics

147. Generation of a non-separable two-qudit state using a time-frequency SUM operation,

     P. Imany, M. S. Alshaykh, J. M. Lukens, J. A. Jaramillo-Villegas, A. J. Moore, D. E. Leaird, A. M. Weiner.

     Th1A.4, Coherence and Quantum Optics, Rochester, NY    doi: 10.1364/CQO.2019.Th1A.4    Research Area: Frequency bin Network Integrated Photonics

148. Bayesian machine learning of frequency-bin CNOT,

     H.-H. Lu, J. M. Lukens, B. P. Williams, P. Imany, N. A. Peters, A. M. Weiner, P. Lougovski.

     FF1F.3, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2019.FF1F.3    Research Area: Frequency bin Network Integrated Photonics

149. Demonstration of four-party 32-dimensional Greenberger–Horne–Zeilinger entangled state,

     P. Imany, M. S. Alshaykh, J. M. Lukens, A. J. Moore, D. E. Leaird, A. M. Weiner.

     JTh5C.5, CLEO, San Jose, CA    doi: 10.1364/CLEO_AT.2019.JTh5C.5    Research Area: Frequency bin

150. Subatomic many-body physics simulations on a quantum frequency processor,

     H.-H. Lu, N. Klco, J. M. Lukens, T. D. Morris, A. Bansal, A. Ekström, G. Hagen, T. Papenbrock, A. M. Weiner, M. J. Savage, P. Lougovski.

     FTh3A.6, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2019.FTh3A.6    Research Area: Frequency bin Network Integrated Photonics

151. Quantum information processing with frequency-bin qubits: progress, status, and challenges,

     J. M. Lukens.

     JTu4A.3, CLEO, San Jose, CA    doi: 10.1364/CLEO_AT.2019.JTu4A.3    Research Area: Frequency bin Network Integrated Photonics

152. Spectral phase coherence in HOM interferometry,

     N. Lingaraju, H.-H. Lu, S. Seshadri, P. Imany, D. E. Leaird, J. M. Lukens, A. M. Weiner.

     JTu3A.5, CLEO, San Jose, CA    doi: 10.1364/CLEO_AT.2019.JTu3A.5    Research Area: Frequency bin

153. A two-qudit operation on a 256-dimensional Hilbert space,

     P. Imany, M. S. Alshaykh, J. M. Lukens, J. A. Jaramillo-Villegas, D. E. Leaird, A. M. Weiner.

     JTu3A.3, CLEO, San Jose, CA    doi: 10.1364/CLEO_AT.2019.JTu3A.3    Research Area: Frequency bin Network Integrated Photonics

154. Quantum interference and correlation control of frequency-bin qubits,

     H.-H. Lu, J. M. Lukens, N. A. Peters, B. P. Williams, A. M. Weiner, P. Lougovski.

     Optica 5, 1455–1460 (2018)    doi: 10.1364/optica.5.001455    Research Area: Frequency bin Network Integrated Photonics

155. A broadband fiber-optic nonlinear interferometer,

     J. M. Lukens, R. C. Pooser, N. A. Peters.

     Applied Physics Letters 113, 091103 (2018)    doi: 10.1063/1.5048198

156. Roadmap on transformation optics,

     M. McCall, J. B. Pendry, V. Galdi, Y. Lai, S. A. R. Horsley, J. Li, J. Zhu, R. C. Mitchell-Thomas, O. Quevedo-Teruel, P. Tassin, V. Ginis, E. Martini, G. Minatti, S. Maci, M. Ebrahimpouri, Y. Hao, P. Kinsler, J. Gratus, J. M. Lukens, A. M. Weiner, U. Leonhardt, I. I. Smolyaninov, V. N. Smolyaninova, R. T. Thompson, M. Wegener, M. Kadic, S. A. Cummer.

     Journal of Optics 20, 063001 (2018)    doi: 10.1088/2040-8986/aab976

157. Reconfigurable generation and measurement of mutually unbiased bases for time-bin qudits,

     J. M. Lukens, N. T. Islam, C. C. W. Lim, D. J. Gauthier.

     Applied Physics Letters 112, 111102 (2018)    doi: 10.1063/1.5024318    Research Area: Frequency bin

158. 50-GHz-spaced comb of high-dimensional frequency-bin entangled photons from an on-chip silicon nitride microresonator,

     P. Imany, J. A. Jaramillo-Villegas, O. D. Odele, K. Han, D. E. Leaird, J. M. Lukens, P. Lougovski, M. Qi, A. M. Weiner.

     Optics Express 26, 1825–1840 (2018)    doi: 10.1364/oe.26.001825    Research Area: Frequency bin Bayesian Statistics

159. Electro-optic frequency beamsplitters and tritters for high-fidelity quantum information processing,

     H.-H. Lu, J. M. Lukens, N. A. Peters, O. D. Odele, D. E. Leaird, A. M. Weiner, P. Lougovski.

     Physical Review Letters 120, 030502 (2018)    doi: 10.1103/physrevlett.120.030502    Research Area: Frequency bin Network Integrated Photonics

160. Mutually unbiased bases for time-bin qudits,

     J. M. Lukens, N. T. Islam, C. C. W. Lim, and D. J. Gauthier.

     JW3A.66, Frontiers in Optics, Washington, DC    doi: 10.1364/FIO.2018.JW3A.66    Research Area: Frequency bin

161. Experimental demonstration of CNOT gate for frequency-encoded qubits,

     H.-H. Lu, J. M. Lukens, P. Imany, N. A. Peters, B. P. Williams, A. M. Weiner, P. Lougovski.

     JTu3A.55, Frontiers in Optics, Washington, DC    doi: 10.1364/FIO.2018.JTu3A.55    Research Area: Frequency bin Network Integrated Photonics

162. Two-qudit deterministic optical quantum logic in a single photon,

     P. Imany, J. A. Jaramillo-Villegas, J. M. Lukens, O. D. Odele, D. E. Leaird, M. Qi, A. M. Weiner.

     JTu2A.53, Frontiers in Optics, Washington, DC    doi: 10.1364/FIO.2018.JTu2A.53    Research Area: Frequency bin Network Integrated Photonics

163. Two-photon interference and entanglement control via reconfigurable quantum frequency processor,

     H.-H. Lu, J. M. Lukens, N. A. Peters, B. P. Williams, A. M. Weiner, P. Lougovski.

     JTh5B.3, CLEO, San Jose, CA    doi: 10.1364/CLEO_AT.2018.JTh5B.3    Research Area: Frequency bin Network Integrated Photonics

164. A broadband all-fiber SU(1,1) interferometer,

     J. M. Lukens, R. C. Pooser, N. A. Peters.

     FTh4G.3, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2018.FTh4G.3

165. Two-photon N-party quantum secret sharing,

     W. P. Grice, J. M. Lukens, N. A. Peters, B. P. Williams.

     FTu4A.5, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2018.FTu4A.5    Research Area: Quantum Networking

166. Frequency-encoded photonic qubits for scalable quantum information processing,

     J. M. Lukens, P. Lougovski.

     Optica 4, 8–16 (2017)    doi: 10.1364/optica.4.000008    Research Area: Frequency bin Network Integrated Photonics

167. High-speed switching of biphoton delays through electro-optic pump frequency modulation,

     O. D. Odele, J. M. Lukens, J. A. Jaramillo-Villegas, P. Imany, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     APL Photonics 2, 011301 (2017)    doi: 10.1063/1.4971313    Research Area: Frequency bin

168. Linear-optical frequency beamsplitter for fiber-optic quantum networks,

     H.-H. Lu, J. M. Lukens, N. A. Peters, O. D. Odele, A. M. Weiner, P. Lougovski.

     Th454, QCrypt, Cambridge, UK    Research Area: Frequency bin Quantum Networking Network Integrated Photonics

169. Electro-optic frequency beamsplitter for quantum networking applications,

     H.-H. Lu, J. M. Lukens, N. A. Peters, O. D. Odele, A. M. Weiner, P. Lougovski.

     JW4A.23, Frontiers in Optics, Washington, DC    doi: 10.1364/FIO.2017.JW4A.23    Research Area: Frequency bin Quantum Networking Network Integrated Photonics

170. A nonlinear interferometer with intrinsic stability,

     J. M. Lukens, N. A. Peters, R. C. Pooser.

     FTu3F.6, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2017.FTu3F.6

171. Naturally stable Sagnac–Michelson nonlinear interferometer,

     J. M. Lukens, N. A. Peters, R. C. Pooser.

     Optics Letters 41, 5438–5441 (2016)    doi: 10.1364/ol.41.005438

172. Optical quantum computing with spectral qubits,

     J. M. Lukens, P. Lougovski.

     FTh5F.5, Frontiers in Optics, Rochester, NY    doi: 10.1364/FIO.2016.FTh5F.5    Research Area: Frequency bin Network Integrated Photonics

173. Rapid delay modulation of biphotons,

     O. D. Odele, J. M. Lukens, J. A. Jaramillo-Villegas, P. Imany, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     JW4A.174, Frontiers in Optics, Rochester, NY    doi: 10.1364/FIO.2016.JW4A.174    Research Area: Frequency bin

174. Nonlinear interferometric plasmonic sensing,

     E. Layden, T. Coulter, J. Lukens, N. A. Peters, B. Lawrie, R. Pooser.

     LF2E.6, Laser Science, Rochester, NY    doi: 10.1364/LS.2016.LF2E.6

175. Modulation technique for improving temporal resolution in biphoton coincidence measurements,

     O. D. Odele, J. M. Lukens, D. E. Leaird, A. M. Weiner.

     FTu4C.5, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2016.FTu4C.5    Research Area: Frequency bin

176. Locked SU(1,1) Nonlinear Interferometer for Phase Shift Measurements in Triangular Nanohole Arrays,

     E. Layden, T. Coulter, J. Lukens, B. Lawrie, R. Pooser.

     B7.00008, DAMOP, Providence, RI

177. Electro-optic modulation for high-speed characterization of entangled photon pairs,

     J. M. Lukens, O. D. Odele, D. E. Leaird, A. M. Weiner.

     Optics Letters 40, 5331–5334 (2015)    doi: 10.1364/ol.40.005331    Research Area: Frequency bin

178. Tunable delay control of entangled photons based on dispersion cancellation,

     O. D. Odele, J. M. Lukens, J. A. Jaramillo-Villegas, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     Optics Express 23, 21857–21866 (2015)    doi: 10.1364/oe.23.021857    Research Area: Frequency bin

179. Temporal position modulation of biphoton correlations through pump frequency tuning,

     O. D. Odele, J. M. Lukens, J. A. Jaramillo-Villegas, C. Langrock. M. M. Fejer, D. E. Leaird, A. M. Weiner.

     FTh1A.8, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2015.FTh1A.8    Research Area: Frequency bin

180. Temporal cloaking enhancements for optical communication,

     J. M. Lukens, A. J. Metcalf, D. E. Leaird, A. M. Weiner.

     FW4D.7, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2015.FW4D.7

181. Biphoton Pulse Shaping,

     J. M. Lukens, A. M. Weiner.

     Springer Series in Optical Sciences 194, 423–448 (2015)    doi: 10.1007/978-3-319-14992-9_13    Research Area: Frequency bin

182. Temporal cloaking for data suppression and retrieval,

     J. M. Lukens, A. J. Metcalf, D. E. Leaird, A. M. Weiner.

     Optica 1, 372–375 (2014)    doi: 10.1364/optica.1.000372

183. Generation of biphoton correlation trains through spectral filtering,

     J. M. Lukens, O. Odele, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     Optics Express 22, 9585–9596 (2014)    doi: 10.1364/oe.22.009585    Research Area: Frequency bin

184. Orthogonal spectral coding of entangled photons,

     J. M. Lukens, A. Dezfooliyan, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     Physical Review Letters 112, 133602 (2014)    doi: 10.1103/physrevlett.112.133602    Research Area: Frequency bin

185. Observation of the temporal Talbot effect for entangled photons,

     O. D. Odele, J. M. Lukens, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     FW2C.2, Frontiers in Optics, Tucson, AZ    doi: 10.1364/FIO.2014.FW2C.2    Research Area: Frequency bin

186. Ultrafast biphoton spectral coding,

     J. M. Lukens, A. Dezfooliyan, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     Poster T23, Siegman International School on Lasers, Stanford, CA    Research Area: Frequency bin

187. Record-efficiency biphoton correlator and observation of high-order dispersion cancellation,

     J. M. Lukens, A. Dezfooliyan, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     FTh4A.3, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2014.FTh4A.3    Research Area: Frequency bin

188. Encoding and decoding of biphoton wavepackets,

     J. M. Lukens, A. Dezfooliyan, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     FW3A.8, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2014.FW3A.8    Research Area: Frequency bin

189. Demonstration of high-order dispersion cancellation with an ultrahigh-efficiency sum-frequency correlator,

     J. M. Lukens, A. Dezfooliyan, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     Physical Review Letters 111, 193603 (2013)    doi: 10.1103/physrevlett.111.193603    Research Area: Frequency bin

190. Biphoton manipulation with a fiber-based pulse shaper,

     J. M. Lukens, A. Dezfooliyan, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     Optics Letters 38, 4652–4655 (2013)    doi: 10.1364/ol.38.004652    Research Area: Frequency bin

191. A temporal cloak at telecommunication data rate,

     J. M. Lukens, D. E. Leaird, A. M. Weiner.

     Nature 498, 205–208 (2013)    doi: 10.1038/nature12224

192. Manipulation of entangled photons with a fiber-based pulse shaper,

     J. M. Lukens, A. Dezfooliyan, C. Langrock, M. M. Fejer, D. E. Leaird, A. M. Weiner.

     FW1C.3, Frontiers in Optics, Orlando, FL    doi: 10.1364/FIO.2013.FW1C.3    Research Area: Frequency bin

193. A telecom-based temporal cloak,

     J. M. Lukens, D. E. Leaird, A. M. Weiner.

     QM4E.4, CLEO, San Jose, CA    doi: 10.1364/CLEO_QELS.2013.QM4E.4

No publications match the selected filter.