2025

2024

Before UW

2023

12.    N. T. Tung, S. Saito, T. Sasaki, D. Greif, M. F. Parsons, S. Holmes, and K. Hane, “High-aspect-ratio thin-film stiffening structures made of atomic-layer-deposited alumina and its application to a scanning micromirror,” Journal of Microelectromechanical Systems, vol. 32, no. 4, pp. 352–361, 2023.

2019

11.    A. Mazurenko, S. Blatt, F. Huber, M. F. Parsons, C. S. Chiu, G. Ji, D. Greif, and M. Greiner, “Implementation of a stable, high-power optical lattice for quantum gas microscopy,” Review of Scientific Instruments, vol. 90, no. 3, p. 033101, 2019.

2017

10.    J. Baron, W. C. Campbell, D. DeMille, J. M. Doyle, G. Gabrielse, Y. V. Gurevich, P. W. Hess, N. R. Hutzler, E. Kirilov, I. Kozyryev, B. R. O’Leary, C. D. Panda, M. F. Parsons, B. Spaun, A. C. Vutha, A. D. West, and E. P. West, “Methods, analysis, and the treatment of systematic errors for the electron electric dipole moment search in thorium monoxide,” New Journal of Physics, vol. 19, no. 7, p. 073029, 2017.

9.    A. Mazurenko, C. S. Chiu, G. Ji, M. F. Parsons, M. Kanász-Nagy, R. Schmidt, F. Grusdt, E. Demler, D. Greif, and M. Greiner, “A cold-atom Fermi–Hubbard antiferromagnet,” Nature, vol. 545, no. 7655, pp. 462–466, 2017.

2016

8.    D. Greif, M. F. Parsons, A. Mazurenko, C. S. Chiu, S. Blatt, F. Huber, G. Ji, and M. Greiner, “Site-resolved imaging of a fermionic Mott insulator,” Science, vol. 351, no. 6276, pp. 953–957, 2016.

7.    M. F. Parsons, A. Mazurenko, C. S. Chiu, G. Ji, D. Greif, and M. Greiner, “Site-resolved measurement of the spin-correlation function in the Fermi-Hubbard model,” Science, vol. 353, no. 6305, pp. 1253–1256, 2016.

2015

6.    S. Blatt, A. Mazurenko, M. F. Parsons, C. S. Chiu, F. Huber, and M. Greiner, “Low-noise optical lattices for ultracold $^6$Li,” Physical Review A, vol. 92, no. 2, p. 021402, 2015.

5.    M. F. Parsons, F. Huber, A. Mazurenko, C. S. Chiu, W. Setiawan, K. Wooley-Brown, S. Blatt, and M. Greiner, “Site-resolved imaging of fermionic Li-6 in an optical lattice,” Physical Review Letters, vol. 114, no. 21, p. 213002, 2015.

2014

4.    J. Baron, W. C. Campbell, D. DeMille, J. M. Doyle, G. Gabrielse, Y. V. Gurevich, P. W. Hess, N. R. Hutzler, E. Kirilov, I. Kozyryev, B. R. O’Leary, C. D. Panda, M. F. Parsons, E. S. Petrik, B. Spaun, A. C. Vutha, and A. D. West, “Order of Magnitude Smaller Limit on the Electric Dipole Moment of the Electron,” Science, vol. 343, no. 6168, pp. 269–272, 2014.

2011

3.    N. R. Hutzler, M. F. Parsons, Y. V. Gurevich, P. W. Hess, E. Petrik, B. Spaun, A. C. Vutha, D. DeMille, G. Gabrielse, and J. M. Doyle, “A cryogenic beam of refractory, chemically reactive molecules with expansion cooling,” Physical Chemistry Chemical Physics, vol. 13, no. 42, pp. 18976–18985, 2011.

2.    S. A. Meek, M. F. Parsons, G. Heyne, V. Platschkowski, H. Haak, G. Meijer, and A. Osterwalder, “A traveling wave decelerator for neutral polar molecules,” Review of Scientific Instruments, vol. 82, no. 9, p. 093108, 2011.

2010

1.    A. C. Vutha, W. C. Campbell, Y. V. Gurevich, N. R. Hutzler, M. Parsons, D. Patterson, E. Petrik, B. Spaun, J. M. Doyle, G. Gabrielse, and D. DeMille, “Search for the electric dipole moment of the electron with thorium monoxide,” Journal of Physics B: Atomic, Molecular and Optical Physics, vol. 43, no. 7, p. 074007, 2010.

Patents

2025

38.   M. Xu, B. Wheelwright, F. Peng, Y. Geng, C. Jang, M. Parsons, S. He, and J. Gollier, “Geometrical waveguide illuminator and display based thereon,” US12259553B2, 2025.

2024

37.   Z. Shi, K. Patterson, M. Parsons, Y. Hu, G. Calafiore, and Z. Shi, “Self-lit display panel,” US11860395B2, 2024.

2023

36.   G. Calafiore, N. Huang, A. Maimone, A. Ouderkirk, H. Y. Lee, M. Parsons, S. C. McEldowney, B. Amirsolaimani, P. Saarikko, W. Chi, A. Koshelev, B. D. Silverstein, L. Lu, W. S. T. Lam, G. Li, S. Lutgen, F. G. F. Olivier, and D. Massoubre, “Cascaded pupil-replicating waveguides,” US11774753B1, 2023.

35.   W. Chi, S. He, Y. Geng, and M. Parsons, “Light guide illumination assembly for providing increased contrast,” US20230258950A1, 2023.

34.   W. Chi, C. B. Martin, S. C. McEldowney, M. Parsons, S. J. McNally, and D. G. Greif, “Compact array light source for scanning display,” US11714282B2, 2023.

33.   S. He, J. Gollier, M. Parsons, B. Amirsolaimani, W. Chi, D. G. Greif, R. E. K. Landig, X. Feng, Z. Shi, N. J. Diorio, Y. Yang, G. Calafiore, F. Peng, T. Malhotra, and A. J. Ouderkirk, “Eye tracking with switchable gratings,” US11846774B2, 2023.

32.   S. J. Holmes, W. Chi, M. Parsons, and J. S. Sears, “Near-eye display assembly with enhanced display resolution,” US11604356B1, 2023.

31.   J. King, B. Bloom, K. Kotru, B. Lester, and M. Parsons, “Scalable neutral atom based quantum computing,” US11580435B2, 2023.

30.   J. King, B. Bloom, K. Kotru, B. Lester, and M. Parsons, “Scalable neutral atom based quantum computing,” US11586968B2, 2023.

29.   R. Sharma, M. Parsons, A. J. Ouderkirk, and S. Hallstein, “Eye-tracking with steered eyebox,” US11796804B1, 2023.

28.   Z. Shi, K. Patterson, M. Parsons, G. Calafiore, Y. Hu, and Z. Shi, “Self-lit display panel,” US11726252B2, 2023.

2022

27.   G. Calafiore, N. Huang, A. Maimone, A. Ouderkirk, H. Y. Lee, M. Parsons, S. C. McEldowney, B. Amirsolaimani, P. Saarikko, W. Chi, A. Koshelev, B. D. Silverstein, L. Lu, W. S. T. Lam, G. Li, S. Lutgen, F. G. F. Olivier, and D. Massoubre, “Cascaded pupil-replicating waveguides,” US11231579B1, 2022.

26.   M. E. Colburn, G. Calafiore, M. C. R. Leibovici, and M. Parsons, “Fabrication of self-aligned grating elements with high refractive index for waveguide displays,” US11448806B1, 2022.

25.   C. A. M. Fabien, D. G. Greif, S. C. McEldowney, and M. Parsons, “Suppressing coherence artifacts and optical interference in displays,” US11327314B2, 2022.

24.   M. Parsons, G. Calafiore, and W. Chi, “Multi-layered substrates for waveguide displays,” US11280956B1, 2022.

23.   M. Parsons, G. Calafiore, and W. Chi, “Multi-layered substrates for waveguide displays,” US11422369B1, 2022.

22.   M. Parsons, C. A. M. Fabien, N. Huang, G. Valentine, and J. R. Bonar, “Directional color conversion using photonic crystals with quantum dots,” US11448906B1, 2022.

2021

21.   M. E. Colburn, G. Calafiore, M. C. R. Leibovici, and M. Parsons, “Fabrication of self-aligned grating elements with high refractive index for waveguide displays,” US10983257B1, 2021.

20.   M. E. Colburn, G. Calafiore, M. C. R. Leibovici, M. Parsons, and A. Lane, “Tunable shrinkage process for manufacturing gratings,” US11035988B1, 2021.

19.   W. Gao, B. Wheelwright, M. Parsons, D. G. Greif, and S. C. McEldowney, “Scanning projector with multipath beam relay,” US11199697B2, 2021.

18.   J. M. Goward, S. J. Holmes, and M. Parsons, “Nano-porous metal interconnect for light sources,” US10998297B1, 2021.

17.   S. J. Holmes, W. Chi, M. Parsons, and J. S. Sears, “Near-eye display assembly with enhanced display resolution,” US11137605B1, 2021.

16.   M. Parsons, G. Calafiore, and W. Chi, “Multi-layered substrates for waveguide displays,” US10955605B1, 2021.

15.   M. Parsons, S. Colburn, Y. Jiang, A. Maimone, E. Shipton, G. Wei, and O. Yaroshchuk, “Resonant liquid crystal devices,” US11137655B2, 2021.

14.   A. Maimone, A. Ouderkirk, H. Y. Lee, N. Huang, M. Parsons, S. C. McEldowney, B. Amirsolaimani, P. Saarikko, W. Chi, G. Calafiore, A. Koshelev, B. D. Silverstein, L. Lu, W. S. T. Lam, G. Li, S. Lutgen, F. Olivier, and D. Massoubre, “Waveguide with coherent interference mitigation,” US10942378B2, 2021.

2020

13.   Y. Fu, W. Chi, P. Saarikko, X. Liu, H. Y. Lee, and M. Parsons, “Superluminous LED array for waveguide display,” US10690919B1, 2020.

12.   S. J. Holmes, W. Chi, M. Parsons, and J. S. Sears, “Near-eye display assembly with enhanced display resolution,” US10613332B1, 2020.

11.   M. Parsons, “Single chip superluminous light emitting diode array for waveguide displays with particular coherence length and divergence angle,” US10598940B2, 2020.

10.  M. Parsons, G. Calafiore, and W. Chi, “Multi-layered substrates for waveguide displays,” US10571699B1, 2020.

9.    M. Parsons, G. Calafiore, and W. Chi, “Multi-layered substrates for waveguide displays,” US10877205B1, 2020.

8.    M. Parsons, W. Chi, Y. Fu, H. Y. Lee, J. R. Bonar, P. Saarikko, and S. C. McEldowney, “Temporally incoherent and spatially coherent source for waveguide displays,” US10705341B1, 2020.

7.    M. Parsons, C. A. M. Fabien, N. Huang, G. Valentine, and J. R. Bonar, “Non-uniformly patterned photonic crystal structures with quantum dots for pixelated color conversion,” US10529290B1, 2020.

6.    A. Maimone, A. Ouderkirk, H. Y. Lee, N. Huang, M. Parsons, S. C. McEldowney, B. Amirsolaimani, P. Saarikko, W. Chi, G. Calafiore, A. Koshelev, B. D. Silverstein, L. Lu, W. S. T. Lam, G. Li, S. Lutgen, F. Olivier, and D. Massoubre, “Waveguide with coherent interference mitigation,” US10705353B1, 2020.

2019

5.    J. King, B. Bloom, K. Kotru, B. Lester, and M. Parsons, “Scalable neutral atom based quantum computing,” US10504033B1, 2019.

4.    M. Parsons, “Compact multi-color beam combiner using a geometric phase lens,” US10466496B2, 2019.

3.    M. Parsons, “Light source array having plural super luminous or luminescent diode (SLED) arrays,” US10310272B1, 2019.

2.    M. Parsons, “Single chip superluminous light emitting diode array for waveguide displays,” US10168537B1, 2019.

1.    M. Parsons, C. A. M. Fabien, N. Huang, G. Valentine, and J. R. Bonar, “Directional color conversion using photonic crystals with quantum dots,” US10503007B1, 2019.