Photonic crystal microcavities for cavity quantum electrodynanmics
- Author(s):
Reese, C. ( Univ. of California/Santa Barbara(USA) ) Gayral. B. Gerardot, B.D. Kiraz, A. Imamoglu, A. Petroff, P.M. Hu, E.L. - Publication title:
- Photonic bandgap materials and devices : 23-25 January, 2002, San Jose, USA
- Title of ser.:
- Proceedings of SPIE - the International Society for Optical Engineering
- Ser. no.:
- 4655
- Pub. Year:
- 2002
- Page(from):
- 215
- Page(to):
- 220
- Pages:
- 6
- Pub. info.:
- Bellingham, Wash.: SPIE-The International Society for Optical Engineering
- ISSN:
- 0277786X
- ISBN:
- 9780819443946 [0819443948]
- Language:
- English
- Call no.:
- P63600/4655
- Type:
- Conference Proceedings
Similar Items:
SPIE - The International Society of Optical Engineering |
7
Conference Proceedings
ELECTRONIC PROPERTIES OF DISLOCATIONS IN HEAVILY DISLOCATED QUANTUM WELL STRUCTURES: DOPING EFFECTS
Materials Research Society |
Materials Research Society |
SPIE - The International Society of Optical Engineering |
SPIE - The International Society of Optical Engineering |
9
Conference Proceedings
Second-order nonlinear mixing of two modes in a planar photonic crystal microcavity [6128-35]
SPIE - The International Society of Optical Engineering |
4
Conference Proceedings
Quantum dot spontaneous emission lifetime modification in optical microcavities using oxide apertured micropillars [6101-68]
SPIE - The International Society of Optical Engineering |
10
Conference Proceedings
Electrons and photons in mesoscopic structures:quantum dots in a photonic crystal and in a microcavity
SPIE - The International Society for Optical Engineering |
Kluwer Academic Publishers |
11
Conference Proceedings
Fabrication and investigation of photonic crystal microcavities for solid state quantum optics
SPIE - The International Society of Optical Engineering |
6
Conference Proceedings
Dark Exciton Signatures in Time-Resolved Photoluminescence of Single Quantum Dots
Materials Research Society |
12
Conference Proceedings
NEW SUPERLATTICE ARCHITECTURE IN III-V COMPOUND SEMICONDUCTORS VIA CONTROL OF EPITAXY ON AN ATOMIC SCALE
Materials Research Society |