Oskar J. Painter, Ph.D.
Affiliations: | 2001 | Applied Physics and Materials Science | California Institute of Technology, Pasadena, CA |
Area:
nanophotonics, quantum optics, superconducting quantum circuits, quantum information scienceWebsite:
http://aph.caltech.edu/people/opainterGoogle:
"Oskar Painter"Bio:
http://copilot.caltech.edu/
Painter, Oskar Jon Optical nanocavities in two-dimensional photonic crystal planar waveguides. Dissertation (Ph.D.), California Institute of Technology (2001).
Mean distance: 564.67
Parents
Sign in to add mentor| Axel Scherer | grad student | 2001 | Caltech | |
| (Optical nanocavities in two -dimensional photonic crystal planar waveguides.) | ||||
Children
Sign in to add trainee| Utku Hatipoglu | grad student | Caltech | |
| Eunjong Kim | grad student | ||
| Sameer Sonar | grad student | Caltech | |
| Xueyue Zhang | grad student | ||
| Matthew Borselli | grad student | 2006 | Caltech |
| Kartik Srinivasan | grad student | 2006 | Caltech |
| Paul E. Barclay | grad student | 2007 | Caltech |
| Thomas Johnson | grad student | 2009 | Caltech |
| Christopher P. Michael | grad student | 2009 | Caltech |
| Matt Eichenfield | grad student | 2010 | Caltech |
| Jasper Chan | grad student | 2012 | Caltech |
| Jeffrey T. Hill | grad student | 2013 | Caltech |
| Amir H. Safavi-Naeini | grad student | 2013 | Caltech |
| Sean M. Meenehan | grad student | 2015 | Caltech |
| Richard A. Norte | grad student | 2015 | Caltech |
| Justin Daniel Cohen | grad student | 2009-2015 | Caltech |
| Jash Banker | grad student | 2015-2021 | Caltech |
| Kejie Fang | post-doc | UIUC | |
| Johannes Fink | post-doc | IST Austria | |
| Clai Owens | post-doc | ||
| Alp Sipahigil | post-doc | Caltech | |
| Mohammad Mirhosseini | post-doc | 2016- | Caltech |
| Simon Gröblacher | post-doc | 2011-2014 | |
| Matthew Matheny | post-doc | 2016 | Caltech |
| Mo Chen | post-doc | 2020-2024 | Caltech |
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Publications
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| Putterman H, Noh K, Hann CT, et al. (2025) Hardware-efficient quantum error correction via concatenated bosonic qubits. Nature. 638: 927-934 |
| Chen M, Owens JC, Putterman H, et al. (2024) Phonon engineering of atomic-scale defects in superconducting quantum circuits. Science Advances. 10: eado6240 |
| Chiappina P, Banker J, Meesala S, et al. (2023) Design of an ultra-low mode volume piezo-optomechanical quantum transducer. Optics Express. 31: 22914-22927 |
| Zhang X, Kim E, Mark DK, et al. (2023) A superconducting quantum simulator based on a photonic-bandgap metamaterial. Science (New York, N.Y.). 379: 278-283 |
| Ren H, Shah T, Pfeifer H, et al. (2022) Topological phonon transport in an optomechanical system. Nature Communications. 13: 3476 |
| Mirhosseini M, Sipahigil A, Kalaee M, et al. (2020) Superconducting qubit to optical photon transduction. Nature. 588: 599-603 |
| MacCabe GS, Ren H, Luo J, et al. (2020) Nano-acoustic resonator with ultralong phonon lifetime. Science (New York, N.Y.). 370: 840-843 |
| Ren H, Matheny MH, MacCabe GS, et al. (2020) Two-dimensional optomechanical crystal cavity with high quantum cooperativity. Nature Communications. 11: 3373 |
| Fink JM, Kalaee M, Norte R, et al. (2020) Efficient microwave frequency conversion mediated by a photonics compatible silicon nitride nanobeam oscillator Quantum Science and Technology. 5: 034011 |
| Mirhosseini M, Kim E, Zhang X, et al. (2019) Cavity quantum electrodynamics with atom-like mirrors. Nature |