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[ subject:"Physics, Atomic." ]
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Generation, storage, and retrieval o...
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Eisaman, Matthew D.
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Generation, storage, and retrieval of nonclassical states of light using atomic ensembles.
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Generation, storage, and retrieval of nonclassical states of light using atomic ensembles./
作者:
Eisaman, Matthew D.
面頁冊數:
139 p.
附註:
Adviser: Mikhail D. Lukin.
Contained By:
Dissertation Abstracts International67-05B.
標題:
Physics, Atomic. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3217720
ISBN:
9780542692376
Generation, storage, and retrieval of nonclassical states of light using atomic ensembles.
Eisaman, Matthew D.
Generation, storage, and retrieval of nonclassical states of light using atomic ensembles.
- 139 p.
Adviser: Mikhail D. Lukin.
Thesis (Ph.D.)--Harvard University, 2006.
This thesis presents the experimental demonstration of several novel methods for generating, storing, and retrieving nonclassical states of light using atomic ensembles, and describes applications of these methods to frequency-tunable single-photon generation, single-photon memory, quantum networks, and long-distance quantum communication.
ISBN: 9780542692376Subjects--Topical Terms:
1029235
Physics, Atomic.
Generation, storage, and retrieval of nonclassical states of light using atomic ensembles.
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Generation, storage, and retrieval of nonclassical states of light using atomic ensembles.
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We first demonstrate emission of quantum-mechanically correlated pulses of light with a time delay between the pulses that is coherently controlled by utilizing 87Rb atoms. The experiment is based on Raman scattering, which produces correlated pairs of excited atoms and photons, followed by coherent conversion of the atomic states into a different photon field after a controllable delay.
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We then describe experiments demonstrating a novel approach for conditionally generating nonclassical pulses of light with controllable photon numbers, propagation direction, timing, and pulse shapes. We observe nonclassical correlations in relative photon number between correlated pairs of photons, and create few-photon light pulses with sub-Poissonian photon-number statistics via conditional detection on one field of the pair. Spatio-temporal control over the pulses is obtained by exploiting long-lived coherent memory for photon states and electromagnetically induced transparency (EIT) in an optically dense atomic medium.
520
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Finally, we demonstrate the use of EIT for the controllable generation, transmission, and storage of single photons with tunable frequency, timing, and bandwidth. To this end, we study the interaction of single photons produced in a "source" ensemble of 87Rb atoms at room temperature with another "target" ensemble. This allows us to simultaneously probe the spectral and quantum statistical properties of narrow-bandwidth single-photon pulses, revealing that their quantum nature is preserved under EIT propagation and storage. We measure the time delay associated with the reduced group velocity of the single-photon pulses and report observations of their storage and retrieval.
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Together these experiments utilize atomic ensembles to realize a narrow-bandwidth single-photon source, single-photon memory that preserves the quantum nature of the single photons, and a primitive quantum network comprised of two atomic-ensemble quantum memories connected by a single photon in an optical fiber. Each of these experimental demonstrations represents an essential element for the realization of long-distance quantum communication.
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http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3217720
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