The Walsworth Group

Slow and Stored Light

Photons are the fastest and simplest carriers of quantum information, but their main strength is also their weakness: they are difficult to localize and store. A solution to this problem may be to store and process quantum information in matter - which would thus form the nodes of a quantum network - and to communicate between these nodes using photons. The hyperfine states of atoms, for example, represent reliable and long-lived storage and processing units.

Together with Mikhail Lukin and his group at the Harvard Physics Department, we have developed a technique to transfer quantum states between light fields and matter. This "stored light" technique uses a dynamic form of electromagnetically induced transparency (EIT) to map quantum states of photons into coherently driven atomic media by adiabatically reducing the group velocity of propagating pulses to zero, resulting in a coherently controlled absorption process.

In conventional EIT, an external optical field (the "control field") is used to make an otherwise opaque medium transparent near an atomic resonance. A second, weak optical field (the "signal field"), at an appropriate frequency and polarization, can then propagate without dissipation and loss but with a substantially reduced group velocity ("slow light").

The stored light technique employs a dynamic control field, which allows the information in an input signal pulse to be linearly, coherently, and reversibly mapped with high efficiency into a collective atomic state without suffering the signal pulse bandwidth limitations imposed in conventional EIT by a static control field.

Recently, our collaboration demonstrated a general technique that optimizes light pulse storage and retrieval. We have also recently demonstrated slow and stored light with integrated gain and large pulse delay.

Recent Posters (click to download)











References:

Repeated interaction model for diffusion-induced Ramsey narrowing. pdf icon
Y. Xiao, I. Novikova, D.F. Phillips and R.L. Walsworth
Optics Express, 16, 14128-14141 (2008)

Slow Light Beam Splitter. pdf icon
Y. Xiao, M. Klein, M. Hohensee, L. Jiang, D.F. Phillips, M.D. Lukin and R.L. Walsworth
Physical Review Letters, 101, 043601(2008)

Optimizing slow and stored light for multidisciplinary applications. pdf icon
M. Klein, Y. Xiao, A.V. Gorshkov, M. Hohensee, C.D. Leung, M.R. Browning, D.F. Phillips,
I. Novikova and R.L. Walsworth
Proceedings of SPIE 6904, 69040C1-69040C9 (2008)

Slow light with integrated gain and large pulse delay. pdf icon
I. Novikova, D.F. Phillips and R.L. Walsworth
Physical Review Letters 99, 173604 (2007) physics/0706.3945

Optimal control of light pulse storage and retrieval. pdf icon
I. Novikova, A.V. Gorshkov, D.F. Phillips, A.S. Sorensen, M.D. Lukin and R.L. Walsworth
Physical Review Letters 98, 243602 (2007) quant-ph/0702266

Optimization of slow and stored light in atomic vapor. pdf icon
I. Novikova, A.V. Gorshkov, D.F. Phillips, Y. Xiao, M. Klein and R.L. Walsworth
Proceedings of SPIE 6482, 64820M1-64820M11 (2007)

Slow light in paraffin-coated Rb vapor cells. pdf icon
M. Klein, I. Novikova, D.F. Phillips and R.L. Walsworth
Journal of Modern Optics, 53, 2583-2591 (2006) quant-ph/0602131.

Diffusion-induced Ramsey narrowing pdf icon
Y. Xiao, I. Novikova, D.F. Phillips and R.L. Walsworth
Physical Review Letters, 96, 043601 (2006) quant-ph/0507188.

EIT and diffusion of atomic coherence pdf icon
I. Novikova, Y. Xiao, D.F. Phillips and R.L. Walsworth
Journal of Modern Optics, 52, 2381–2390 (2005) quant-ph/0505186.

Optimizing stored light efficiency in vapor cells pdf icon
I. Novikova, M. Klein, D.F. Phillips and R.L. Walsworth
Proceedings of SPIE 5735, 87-97 (2005)

Quantum control of light using electromagnetically induced transparency pdf icon
A. Andre, M.D. Eisaman, R.L. Walsworth, A.S. Zibrov, and M.D. Lukin
Journal of Physics B: Atomic Molecular and Optical Physics, 38, S589-S604 (2005)

Dynamic Optical Bistability in Resonantly Enhanced Raman Generation pdf icon
I. Novikova, A.S. Zibrov, D.F. Phillips, A. Andre, and R.L. Walsworth
Physical Review A, 69, 061802(R) (2004) quant-ph/0404065.

AtomicMemory for Correlated Photon States. pdf icon pdf icon
C.H. van der Wal, M.D. Eisaman, A. Andre, R.L. Walsworth, D.F. Phillips, A.S. Zibrov and M.D. Lukin,
Science, 301, 196-200; Published online 22 May 2003, (10.1126/science.1085946).

Towards non-classical light storage via atomic-vapor Raman scattering. pdf icon
C.H. van der Wal, M.D. Eisaman, A.S. Zibrov, A. André, D. F. Phillips, R.L. Walsworth, and M.D. Lukin,
Proceedings of SPIE 5115, 236 (2003).

Phase coherence and control of stored photonic information. pdf icon
A. Mair, J. Hager, D.F. Phillips, R.L. Walsworth, and M.D. Lukin,
Physical Review A 65, 031802 (2002), quant-ph/0108046.

Storage of light in atomic vapor. pdf icon
D.F. Phillips, A. Fleischhauer, A. Mair, R.L. Walsworth, and M.D. Lukin,
Physical Review Letters 86, 783 (2001), quant-ph/0012138.