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 | S | N | B | C | P |
Cross-listing: Chemistry Tree
Parents
Sign in to add mentor| Marvin L. Cohen | grad student | 1974 | UC Berkeley | |
| (Electronic structure of complex crystalline and amorphous semiconductors) | ||||
Children
Sign in to add trainee| Shanhui Fan | grad student | (E-Tree) | |
| Dung-Hai Lee | grad student | MIT | |
| Eugene Mele | grad student | MIT | |
| Robert B. Laughlin | grad student | 1979 | MIT |
| David Hamilton Vanderbilt | grad student | 1981 | MIT (Astronomy Tree) |
| A Douglas Stone | grad student | 1982 | MIT |
| Efthimios Kaxiras | grad student | 1987 | MIT |
| Karin M. Rabe | grad student | 1987 | MIT (Astronomy Tree) |
| Eugen Tarnow | grad student | 1989 | MIT |
| Tomás A. Arias | grad student | 1992 | MIT |
| Mike C. Payne | grad student | 1992 | MIT |
| Andrew M. Rappe | grad student | 1992 | MIT (Chemistry Tree) |
| Kyeongjae Cho | grad student | 1994 | (Neurotree) |
| Rodrigo Barbosa Capaz | grad student | 1996 | MIT |
| Yoel Fink | grad student | 2000 | MIT (E-Tree) |
| Steven G. Johnson | grad student | 2001 | MIT |
| KC Huang | grad student | 1999-2004 | MIT |
| Elefterios Lidorikis | grad student | 2001-2004 | MIT |
| Nikolaj Moll | post-doc | 1998-2000 | MIT |
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Publications
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| 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 |
| Loke G, Khudiyev T, Wang B, et al. (2021) Digital electronics in fibres enable fabric-based machine-learning inference. Nature Communications. 12: 3317 |
| Wong LJ, Rivera N, Murdia C, et al. (2021) Control of quantum electrodynamical processes by shaping electron wavepackets. Nature Communications. 12: 1700 |
| Christiansen RE, Lin Z, Roques-Carmes C, et al. (2020) Fullwave Maxwell inverse design of axisymmetric, tunable, and multi-scale multi-wavelength metalenses. Optics Express. 28: 33854-33868 |
| Khudiyev T, Lee JT, Cox JR, et al. (2020) 100 m Long Thermally Drawn Supercapacitor Fibers with Applications to 3D Printing and Textiles. Advanced Materials (Deerfield Beach, Fla.). e2004971 |
| Sundararaman R, Christensen T, Ping Y, et al. (2020) Plasmonics in argentene Physical Review Materials. 4: 74011 |
| Yang Y, Zhu D, Yan W, et al. (2019) A general theoretical and experimental framework for nanoscale electromagnetism. Nature. 576: 248-252 |
| Loke G, Yuan R, Rein M, et al. (2019) Structured multimaterial filaments for 3D printing of optoelectronics. Nature Communications. 10: 4010 |