2006
DOI: 10.1103/physreva.73.063812
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Low-distortion slow light using two absorption resonances

Abstract: We consider group delay and broadening using two strongly absorbing and widely spaced resonances. We derive relations which show that very large pulse bandwidths coupled with large group delays and small broadening can be achieved. Unlike single resonance systems the dispersive broadening dominates the absorptive broadening which leads to a dramatic increase in the possible group delay. We show that the double resonance systems are excellent candidates for realizing all-optical delay lines. We report on an exp… Show more

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Cited by 100 publications
(70 citation statements)
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“…They rely either on a reduction of the absorption, such as electromagnetically induced transparency (EIT) [1], coherent population oscillations [2], and dual absorption lines [3], or on a gain resonance, like stimulated Brillouin scattering [4] and stimulated Raman scattering [5]. To be useful in the context of all-optical signal processing, an optical delay line should be able to produce a fractional delay (defined as the ratio of the delay to the duration of the pulse) larger than unity with only modest absorption and pulse broadening.…”
mentioning
confidence: 99%
“…They rely either on a reduction of the absorption, such as electromagnetically induced transparency (EIT) [1], coherent population oscillations [2], and dual absorption lines [3], or on a gain resonance, like stimulated Brillouin scattering [4] and stimulated Raman scattering [5]. To be useful in the context of all-optical signal processing, an optical delay line should be able to produce a fractional delay (defined as the ratio of the delay to the duration of the pulse) larger than unity with only modest absorption and pulse broadening.…”
mentioning
confidence: 99%
“…For example, cascaded Bragg gratings [9], Moiré gratings [10,11], ring resonators [12], and photonic crystal structures [13][14][15][16][17] have all been used to demonstrate slow light. However, such structures offer limited tunability and lack continuous optical control when compared with optical absorption and gain resonance techniques.Slow light has been achieved for pulses tuned between absorbing resonances in an atomic vapour [18][19][20][21][22]. In one demonstration, pulses as short as 275 ps were delayed by up to 6.8 ps [19].…”
mentioning
confidence: 99%
“…Slow light has been achieved for pulses tuned between absorbing resonances in an atomic vapour [18][19][20][21][22]. In one demonstration, pulses as short as 275 ps were delayed by up to 6.8 ps [19].…”
mentioning
confidence: 99%
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“…Slow light has been proposed and studied as a resource for building quantum networks; carefully controlled transmission of quantum states of light [1,2], tuneable delay lines [3,4] with fast reconfiguration rates [5] and spectral resolution [6], and tuneable delay of entangled images [7] are just a few examples. More recently slow light has been exploited to enhance measurement, either through improving the sensitivity of interferometers [8], or by enhancing effects that would normally be too small to observe, such as rotary photon drag [9] and Fresnel light dragging [10,11], or the proposed observation of gravitational deflection of classical light [12].…”
Section: Introductionmentioning
confidence: 99%