John D. Joannopoulos
Affiliations: | Chemistry | Massachusetts Institute of Technology, Cambridge, MA, United States |
Area:
theoretical description of the properties of material systems, photonic crystalsWebsite:
http://web.mit.edu/isn/people/faculty/joannopoulos.htmlGoogle:
"John Joannopoulos"Bio:
http://www.nasonline.org/member-directory/members/38738.html
http://web.mit.edu/physics/people/faculty/joannopoulos_john.html
http://ab-initio.mit.edu/people.html
https://www.gf.org/fellows/all-fellows/john-d-joannopoulos/
https://history.aip.org/phn/11602021.html
http://www.genealogy.math.ndsu.nodak.edu/id.php?id=16952
Mean distance: 10.41
Cross-listing: Physics Tree
Parents
Sign in to add mentor| Marvin L. Cohen | grad student | 1974 | UC Berkeley (Physics Tree) | |
| (Electronic structure of complex crystalline and amorphous semiconductors) | ||||
Children
Sign in to add trainee| Dung-Hai Lee | grad student | MIT (Physics Tree) | |
| Eugene Mele | grad student | MIT (Physics Tree) | |
| Robert B. Laughlin | grad student | 1979 | MIT (Physics Tree) |
| David Hamilton Vanderbilt | grad student | 1981 | MIT (Astronomy Tree) |
| A Douglas Stone | grad student | 1982 | MIT (Physics Tree) |
| Efthimios Kaxiras | grad student | 1987 | MIT |
| Karin M. Rabe | grad student | 1987 | MIT (Astronomy Tree) |
| Eugen Tarnow | grad student | 1989 | MIT (Physics Tree) |
| Tomás A. Arias | grad student | 1992 | MIT (Physics Tree) |
| Mike C. Payne | grad student | 1992 | MIT (Physics Tree) |
| Andrew M. Rappe | grad student | 1992 | MIT |
| Kyeongjae Cho | grad student | 1994 | (Neurotree) |
| Rodrigo Barbosa Capaz | grad student | 1996 | MIT (Physics Tree) |
| Shanhui Fan | grad student | 1997 | MIT (E-Tree) |
| Yoel Fink | grad student | 2000 | MIT (E-Tree) |
| Steven G. Johnson | grad student | 2001 | MIT (Physics Tree) |
| Evan J. Reed | grad student | 1998-2003 | (E-Tree) |
| KC Huang | grad student | 1999-2004 | MIT |
| Michelle Povinelli | grad student | 1999-2004 | MIT (Physics Tree) |
| Elefterios Lidorikis | grad student | 2001-2004 | MIT (Astronomy Tree) |
| Alejandro Rodriguez | grad student | 2010 | MIT (E-Tree) |
| Nikolaj Moll | post-doc | 1998-2000 | MIT (Physics Tree) |
| Prineha Narang | post-doc | 2016-2017 | MIT (Physics Tree) |
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Publications
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| Gupta N, Cheung H, Payra S, et al. (2025) A single-fibre computer enables textile networks and distributed inference. Nature |
| Roques-Carmes C, Salamin Y, Sloan J, et al. (2023) Biasing the quantum vacuum to control macroscopic probability distributions. Science (New York, N.Y.). 381: 205-209 |
| Rivera N, Sloan J, Salamin Y, et al. (2023) Creating large Fock states and massively squeezed states in optics using systems with nonlinear bound states in the continuum. Proceedings of the National Academy of Sciences of the United States of America. 120: e2219208120 |
| Yang Y, Roques-Carmes C, Kooi SE, et al. (2023) Photonic flatband resonances for free-electron radiation. Nature. 613: 42-47 |
| Yan W, Noel G, Loke G, et al. (2022) Single fibre enables acoustic fabrics via nanometre-scale vibrations. Nature |
| Roques-Carmes C, Rivera N, Ghorashi A, et al. (2022) A framework for scintillation in nanophotonics. Science (New York, N.Y.). 375: eabm9293 |
| Yin K, Qu Y, Kooi SE, et al. (2021) Enabling Manufacturable Optical Broadband Angular-Range Selective Films. Acs Nano |
| Lin X, Hu H, Easo S, et al. (2021) A Brewster route to Cherenkov detectors. Nature Communications. 12: 5554 |
| Sloan J, Rivera N, Joannopoulos JD, et al. (2021) Casimir Light in Dispersive Nanophotonics. Physical Review Letters. 127: 053603 |
| Loke G, Khudiyev T, Wang B, et al. (2021) Digital electronics in fibres enable fabric-based machine-learning inference. Nature Communications. 12: 3317 |