Prof. Vladimir Bulovic, Organic and Nanostructured Electronics LOOE Logo
Home News Research People Publications Patents Thesis Resources Contact

Research > Topics

STRONG LIGHT-MATTER COUPLING

 

CURRENT Projects

Polaritonic Microcavities Based on Ultra-high Absorption J-aggregate Thin Film (Summary)

Strong Light-Matter Coupling Using a Robust Non-cyanine Dye J-aggregate Material (Summary)

Patterned organic Microcavities for confinement of Exciton-Polaritons (Summary)

Low-threshold Laser Based on Coherent Coupling of Molecules in a Microcavity (Summary)

 

RECENT PUBLICATIONS

Chan, J.M.W., J.R. Tischler, S.E. Kooi, V. Bulović, T.M. Swager,
“Synthesis of J-Aggregating Dibenz[a,J]anthracene-Based Macrocycles,”
Journal of American Chemical Society 131, 5659-5666 (2009).

Bradley, M.S., J.R. Tischler, Y. Shirasaki, and V. Bulović,
“Predicting the Linear Optical Response of J-aggregate Microcavity Exciton-Polariton Devices,”
Physical Review B 78, 193305 (2008).

Zhang Q., T. Atay, J.R. Tischler, M.S. Bradley, V. Bulović, A.V. Nurmikko,
"Highly efficient resonant coupling of optical excitations in hybrid organic/inorganic semiconductor nanostructures,”
Nature Nanotechnology 2, 555‑559 (2007).

Tischler, J.R., M. S. Bradley, Q. Zhang, T. Atay, A. Nurmikko, V. Bulović,
“Solid State Cavity QED: Strong Coupling in Organic Thin Films,”
Organic Electronics 8, 94-113 (2007).

Zhang Q., T. Atay, J.R. Tischler, M.S. Bradley, V. Bulović, A.V. Nurmikko,

"Highly efficient resonant coupling of optical excitations in hybrid organic/inorganic semiconductor nanostructures,”

Nature Nanotechnology 2, 555‑559 (2007).

Tischler, J.R., M.S. Bradley, and V. Bulović,
“Critically Coupled Resonators in Vertical Geometry Using a Planar Mirror and a 5nm Thick Absorbing Film,”

Optics Letters 31, 2045-2047 (2006).

Tischler, J.R., M.S. Bradley, V. Bulović, J.H. Song, A. Nurmikko,

“Strong Coupling in a Microcavity LED,”

Physical Review Letters 95, 036401 (2005).

Bradley, M.S., J.R. Tischler, V. Bulović,

“Layer-by-Layer J-aggregate Thin Films with Peak Absorption Constant of 10^6 cm^-1,”

Advanced Materials 17, 1881-1886 (2005).

Song,J.-H., Y. He, A. V. Nurmikko, J. Tischler, and V. Bulovic,

"Exciton-Polariton Dynamics in a Transparent Organic Semiconductor Microcavity,"

Physical Review B 69, 235330 (2004).

Inert atmosphere glove box environment

Home | News | Research | People | Publications | Patents | Thesis | Resources | Contact © 2009 Massachusetts Institute of Technology
Research Laboratory of Electronics at MIT MIT - Massachusetts Institute of Technology