Nonlinear properties of dense coherent media

Mikhailov, Eugeniy Eugenievich

30 September 2004

Properties of coherent media in the regime of electromagnetically induced transparency (EIT) are studied. A study of the shape and width of the EIT resonance is presented for coherent media with buffer gas. Observation of an absorption-like resonance for large one-photon detunings in a medium with buffer gas and its properties are shown. The regime of ``slow'' and ``fast'' group velocities are studied. Observation of narrow resonances with a phase broadened probe field is presented, and possible application of this regime are outlined.

coherent media

group velocity

slow light

fast light

Tunable Slow and Fast Light Generation and the Applications in Microwave Photonics

Shahoei, Hiva

January 2014

In this thesis, new techniques to generate slow and fast light are proposed and investigated. The use of the slow and fast light for microwave photonics applications is also investigated. This thesis consists of four parts. In the first part, the generation of slow and fast light based on fiber Bragg gratings (FBGs) is studied. Two techniques are proposed. In the first technique, slow and fast light is generated based on a linearly chirped fiber Bragg grating (LCFBG); and in the second technique, slow and fast light is generated based on a tilted fiber Bragg grating (TFBG). Theoretical analysis is performed which is verified by experiments. In the second part, the applications of FBG-based slow and fast light in microwave photonics are studied. These applications include all-optical tunable microwave frequency multiplication, tunable microwave chirped pulse generation, tunable phase shifting, tunable fractional order differentiation, and tunable microwave photonic filtering. In the third part, the generation of slow and fast light based on microring resonators (MRRs) is studied. Novel methods to obtain continuously tunable slow to fast light are proposed and experimentally demonstrated by using a silicon-on-insulator (SOI) MRR with MMI (multi-mode interference) couplers, and a high-contrast Ge-doped silica-on-silicon (SOS) MRR. In the fourth part, the applications of the MRR-based slow and fast light in microwave photonics are studied. These applications include all-optical tunable fractional order differentiation, and tunable fractional order Hilbert transformation.

Slow and fast light

microwave photonics

optical signal processing

Study of White Light Cavity Effect via Stimulated Brillouin Scattering Induced Fast Light in a Fiber Ring Resonator

Yum, Ho Nam

2009 August 1900

Techniques to control dispersion in a medium have attracted much attention due to potential applications to devices such as ring laser gyroscopes, interferometric gravitational wave detectors, data buffers, phased array radars and quantum information processors. Of particular interest is an optical resonator containing a medium with an anomalous dispersion corresponding to fast-light, which behaves as a White Light Cavity (WLC). A WLC can be tailored to improve the sensitivity of sensing devices as well as to realize an optical data buffering system that overcomes the delay-bandwidth product of a conventional cavity. This dissertation describes techniques to tailor the dispersion for fast-light in intracavity media. We present first a demonstration of fast-light in a photorefractive crystal. When placed inside a cavity, such a medium could be used to enhance the bandwidth of a gravitational wave detector. We then describe how a superluminal laser can be realized by adding anomalously dispersive medium inside a ring laser. We identify theoretical conditions under which the sensitivity of the resonance frequency to a change in the cavity length is enhanced by as much as seven orders of magnitude. This paves the way for realizing a fast-light enhanced ring laser gyroscope, for example. This is followed by the development of a novel data buffering system which employs two WLC systems in series. In this system, a data pulse can be delayed an arbitrary amount of time, without significant distortion. The delay time is independent of the data bandwidth, and is limited only by the attenuation experienced by the data pulse as it bounces between two high-reflectivity mirrors. Such a device would represent a significant breakthrough in overcoming the delay-time bandwidth product limitation inherent in conventional data buffers. We then describe our experimental effort to create a fiber-based WLC by using stimulated Brillouin scattering (SBS). Experimental results, in agreement with our theoretical model presented here, show that the WLC effect is small under the conditions supported by current fiber optic technology. We conclude that future efforts to induce a large WLC effect would require fibers with high Brillouin coefficient and low transmission loss, as well as optical elements with very low insertion loss and high power damage thresholds.

stimulated Brillouin scattering

White light cavity

Group index

Group velocity

Fast light

Slow light

Processus cohérents et applications des phénomènes de lumière lente et rapide dans l'hélium métastable à température ambiante / Coherent processes and applications of the slow and fast light phenomena in metastable helium at room temperature

Lauprêtre, Thomas

23 December 2012

L'interaction entre des champs électromagnétiques et des systèmes à plusieurs niveaux peut donner lieu à différents processus cohérents. La transparence électromagnétiquement induite (EIT) ou les oscillations cohérentes de populations (CPO) sont des phénomènes résonnants ayant pour conséquence d'annuler l'absorption du système pour un champ sonde. L'EIT se produit dans les systèmes à trois niveaux et met en jeu une cohérence entre niveaux non couplés optiquement, alors que les systèmes à deux niveaux suffisent pour faire apparaître le CPO qui ne met pas en jeu la dynamique des cohérences.Il est possible dans un milieu constitué d'atomes d'hélium métastable à température ambiante d'extraire un système à trois niveaux en Λ qui, lorsqu'il est excité par des polarisations circulaires, fait apparaître des fenêtres EIT de l'ordre de quelques dizaines de kHz de large. Lorsque ce système est excité par des polarisations linéaires et soumis à un champ magnétique de faible amplitude, c'est l'association des deux phénomènes de CPO et d'EIT qui détermine la réponse du système. Une fenêtre de transparence CPO de quelques dizaines de kHz de large a en particulier été observée.Ce type de phénomènes résonnants est associé à de grandes variations de l'indice de réfraction avec la fréquence du champ sonde, ayant pour conséquence de profondes modifications de la vitesse de groupe d'une impulsion se propageant dans le milieu. Notre système expérimental permet ainsi d'observer de la lumière lente, de la lumière rapide ainsi que des vitesses de groupe négatives. L'insertion de tels milieux dispersifs en cavité optique a été suggérée pour augmenter la précision de senseurs comme les gyroscopes lasers, mais leur bruit fondamental dépend de la durée de vie des photons dans la cavité. C’est pourquoi l’influence des milieux hautement dispersifs sur la durée de vie des photons dans une cavité est étudiée expérimentalement et théoriquement. / Many coherent processes can be observed when electromagnetic fields are applied to multi-level systems. Electromagnetically induced transparency (EIT) or coherent population oscillations (CPO) are resonant phenomena resulting in the cancellation of the absorption of the system for a probe field. EIT occurs in three-level systems and involves the coherence between two optically uncoupled levels, whereas two-level systems are sufficient to produce CPO which does not involve the dynamics of the coherences.A three-level Λ system can be isolated in a gas of metastable helium atoms at room temperature. When excited with circular polarizations, this system exhibits EIT resonances of a few tens of kHz. If this system is excited by linear polarizations and submitted to a weak magnetic field, the response of the system is given by the combination of these two phenomena, namely EIT and CPO. A narrow CPO transmission window of a few tens of kHz has then been observed.This kind of resonant phenomena is associated with very strong variations of the refractive index at the probe frequency, leading to major changes of the group velocity of a pulse propagating in the medium. Our experimental set-up allows us to observe slow light, fast light, and even negative group velocities. Insertion of such dispersive media inside an optical cavity has been suggested to increase the sensitivity of sensors such as laser gyroscopes, but their fundamental noise depends on the lifetime of photons inside the cavity. This is why the influence of highly dispersive media on the photon lifetime inside a cavity is studied experimentally and theoretically.

Cohérence atomique

EIT

Milieux dispersifs

Durée de vie des photons

CPO

Lumière lente

Lumière rapide

Causalité

Cavité optique

Atomic coherence

EIT

Dispersive medium

Photon lifetime

CPO

Slow light

Fast light

Causality

Optical cavity

Lumière lente et rapide dans les amplificateurs optiques à semi-conducteurs pour des applications en optique micro-onde et aux RADAR / Slow and fast light in semiconductor optical amplifiers. Applications in microwave photonics and RADAR

Berger, Perrine

20 February 2012

Les techniques permettant de maitriser la vitesse de la lumière, au-delà de l'intérêt scientifique qu'elles suscitent, peuvent être appliquées au domaine radar. Elles permettent, ainsi, de remplacer avantageusement les retards optiques, jusqu'alors réalisés par des modifications géométriques du chemin optique. L’objectif de la thèse est d’étudier la lumière lente et rapide créée par oscillations cohérentes de population dans les amplificateurs à semi-conducteurs.Nous avons évalué théoriquement et expérimentalement les performances d’une ligne à retards accordables, en termes d’amplitude des retards et déphasages accordables, et de bandes passantes. Nous avons aussi étudié l’impact des oscillations cohérentes de population sur les facteurs de mérite de la liaison opto-électronique. La compréhension des mécanismes physiques mis en jeu nous a amenés à proposer des solutions pour contourner les limites identifiées du composant. Nous avons montré qu’il était possible d’utiliser les lignes à retards accordables au delà de l’inverse du temps de vie des porteurs (500 MHz) en utilisant la montée en fréquence des oscillations cohérentes de population par modulation croisée de gain. Nous avons ainsi obtenu des retards accordables de 389 ps à 16 GHz, sur une bande passante instantanée de 360 MHz. Enfin nous avons proposé une architecture permettant d’obtenir des déphasages accordables proches de 180 degrés à haute fréquence, en substituant l’effet du couplage gain-indice, révélé par l’utilisation d’un filtre optique, par l’excitation paramétrique des oscillations cohérentes de population. Nous avons utilisé ce principe, qui permet par exemple d’atteindre un déphasage accordable de 162 degrés à 2,2 GHz, pour concevoir un oscillateur optoélectronique fonctionnant à 2,2 GHz. La fréquence de ce dernier est rapidement accordable sur 6 MHz à l’aide du courant d’injection de l’amplificateur à semi-conducteur. / Slow and fast light is becoming a wide research field driven by an extensive effort to implement this new technology in real applications. Coherent population oscillations in semiconductor optical amplifiers constitute one of the most promising approaches, in particular for the processing of optically carried microwave signals, which includes the control of tunable true time delays and RF phase shifts.We studied theoretically and experimentally the available tunable delays and phase shifts and the associated bandwidths for a microwave photonics link including a semiconductor optical amplifier. We analyzed the influence of the coherent population oscillations on the dynamic range of the link.The understanding of the underlying physical mechanisms led us to propose new architectures in order to overcome the identified limitations of the components. We show how up-converted coherent population oscillations enable to get rid of the intrinsic limitation of the carrier lifetime (500 MHz), leading to the generation of true time delays at any high frequencies in a single semiconductor device. We demonstrated tunable delays up to 389 ps at 16 GHz, with an instantaneous bandwidth of 360 MHz.Lastly we demonstrate how to conceive a RF phase shifter up to 180 degrees at high frequency by forced coherent population oscillations. This effect replaces the enhancement of the coherent population oscillations by gain-index coupling effect, revealed by an optical filter. We used this principle, which enables to achieve a tunable phase shift up to 162 degrees at 2,2 GHz, in order to conceive an optoelectronic oscillator at 2,2 GHz. The frequency of this oscillator is fast tunable over 6 MHz by changing the current of the semiconductor amplifier.

Lumière lente et rapide

Optique micro-onde

RADAR

Hyperfréquence

Ligne à retards accordables

Déphaseur RF accordable

Oscillations cohérentes de population

SOA

CPO

Slow and fast light

Semiconductor optical amplifier

Microwave photonics

Radar

Hyperfrequency

Tunable delay lines

RF phase shifter

Coherent population oscillation

SOA

CPO