Search results for "Optical cavity"

showing 10 items of 56 documents

Low repetition rate gain-switched double-clad thulium-doped fiber laser operating in the 2 µm wavelength region

2021

Abstract The experimental demonstration of a gain-switched pulsed fiber laser with low repetition rate emission in the 2 µm wavelength region is presented. The laser cavity is based on the figure-9 shape, where the gain-switched operation of the laser is obtained by using a double-clad Tm-doped fiber (DCTDF) as gain medium and a commercial pulsed laser diode at 793-nm with configurable parameters as pump source. The pulse parameters of the pump source are optimized for efficient suppressing of unstable gain-switched laser oscillations. As a result, laser pulses with low repetition rate in a range from 10 to 20 kHz with laser emission at the wavelength of 1951 nm are obtained. The generated …

Active laser mediumMaterials sciencebusiness.industryPhysics::Opticschemistry.chemical_elementLaserAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialslaw.inventionWavelengthThuliumchemistryControl and Systems EngineeringlawFiber laserOptical cavityOptoelectronicsFiberElectrical and Electronic EngineeringbusinessInstrumentationDiodeOptical Fiber Technology
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Probing mechanical quantum coherence with an ultracold-atom meter

2011

We propose a scheme to probe quantum coherence in the state of a nano-cantilever based on its magnetic coupling (mediated by a magnetic tip) with a spinor Bose Einstein condensate (BEC). By mapping the BEC into a rotor, its coupling with the cantilever results in a gyroscopic motion whose properties depend on the state of the cantilever: the dynamics of one of the components of the rotor angular momentum turns out to be strictly related to the presence of quantum coherence in the state of the cantilever. We also suggest a detection scheme relying on Faraday rotation, which produces only a very small back-action on the BEC and it is thus suitable for a continuous detection of the cantilever'…

Angular momentumCantileverRadiation-pressureResonatorNanocantileverFOS: Physical sciences01 natural sciencesSettore FIS/03 - Fisica Della Materia010305 fluids & plasmaslaw.inventionSpinlawUltracold atomQuantum mechanics0103 physical sciencesMicromirrorOptical cavity010306 general physicsQuantumCondensed Matter::Quantum GasesPhysicsQuantum PhysicsBose-Einstein condensateCondensed Matter::OtherCavity quantum electrodynamicsBose Einstein Condensate Atomic physics quantum measurementOptomechanicsAtomic and Molecular Physics and OpticsComputer Science::OtherDynamicsQuantum Gases (cond-mat.quant-gas)Quantum Physics (quant-ph)Condensed Matter - Quantum GasesStateBose–Einstein condensateCoherence (physics)Physical Review A
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PLZT Electro-optic Q-switch for Er:Cr:YSGG laser

1999

Q-switching of the Er:Cr:YSGG laser at 2.79 micrometers is realized using electrooptic modulators of PLZT X/65/35 ceramics. The high (but slow as compared with single crystals) electrooptical effect in PLZT allowed to construct Q-switches with an aperture larger than 4 X 4 mm 2 , small lengths of 3 - 6 mm, with a control voltage of 1000 - 1500 V. Q-switching is realized using modulators in two modes--as a (lambda) /2 switch placed into the laser cavity at the Brewster angle avoiding reflection losses and as a (lambda) /4 switch with higher single pass losses due to Fresnel reflections. A higher laser output was obtained using (lambda) /2 switching. The obtained pulses had a halfwidth of 150…

Brewster's angleMaterials sciencebusiness.industryApertureFar-infrared laserLaserQ-switchinglaw.inventionPulse (physics)symbols.namesakeMicrosecondOpticslawOptical cavitysymbolsbusinessSPIE Proceedings
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One-sided atomic deflection in the optical Stern-Gerlach effect and coherent trapping

2002

In the optical Stern-Gerlach effect, the interaction of a traveling two-level atom with the electromagnetic field of an optical cavity causes a splitting of the atomic trajectory. One may ask if it is possible to single out particular initial configurations of the system that will lead to selective scattering, in which the atoms follow only one trajectory. We show that these configurations consist of a coherent superposition of the atomic internal states, and of a field phase state or a field coherent state, with a precise phase relation between the two subsystems: The same configurations which produce the so-called atomic coherent trapping in the Jaynes-Cummings model.

Condensed Matter::Quantum GasesElectromagnetic fieldPhysicsStern–Gerlach experimentScatteringCoherent backscatteringAtomic and Molecular Physics and Opticslaw.inventionDeflection (physics)lawOptical cavityAtomPhysics::Atomic and Molecular ClustersCoherent statesPhysics::Atomic PhysicsAtomic physicsPhysical Review A
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Acoustically tunable photonic structures based on microcavity polaritons

2006

Abstract The interaction between surface acoustic waves (SAWs) with (Al,Ga)As microcavity polaritons results in the formation of a dynamic optical superlattice with folded light dispersion and energy stop bands when the lower polariton branch is predominantly of photonic character. For small detunings between the excitonic and optical cavity resonances, the SAW bleaches the polariton resonances through the efficient dissociation of the excitons by its piezoelectric field.

Condensed Matter::Quantum GasesPhysicsCondensed matter physicsCondensed Matter::Otherbusiness.industryExcitonSuperlatticePhysics::OpticsAcoustic waveCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCondensed Matter PhysicsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialslaw.inventionCondensed Matter::Materials SciencelawOptical cavityPolaritonOptoelectronicsPhotonicsbusinessElectronic band structurePhotonic crystalPhysica E: Low-dimensional Systems and Nanostructures
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Entanglement control in hybrid optomechanical systems

2012

We demonstrate the control of entanglement in a hybrid optomechanical system comprising an optical cavity with a mechanical end-mirror and an intracavity Bose-Einstein condensate (BEC). Pulsed laser light (tuned within realistic experimental conditions) is shown to induce an almost sixfold increase of the atom-mirror entanglement and to be responsible for interesting dynamics between such mesoscopic systems. In order to assess the advantages offered by the proposed control technique, we compare the time-dependent dynamics of the system under constant pumping with the evolution due to the modulated laser light.

Condensed Matter::Quantum GasesPulsed laserPhysicsQuantum PhysicsMesoscopic physicsbusiness.industryFOS: Physical sciencesPhysics::OpticsQuantum entanglementSettore FIS/03 - Fisica Della MateriaAtomic and Molecular Physics and Opticslaw.inventionOpticsQuantum Gases (cond-mat.quant-gas)lawOptical cavityquantum control optomechanical systems cavity QEDOptoelectronicsQuantum Physics (quant-ph)Condensed Matter - Quantum GasesbusinessLaser lightPhysical Review A
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Controlled insertion and retrieval of atoms coupled to a high-finesse optical resonator

2008

We experimentally investigate the interaction between one and two atoms and the field of a high-finesse optical resonator. Laser-cooled caesium atoms are transported into the cavity using an optical dipole trap. We monitor the interaction dynamics of a single atom strongly coupled to the resonator mode for several hundred milliseconds by observing the cavity transmission. Moreover, we investigate the position-dependent coupling of one and two atoms by shuttling them through the cavity mode. We demonstrate an alternative method, which suppresses heating effects, to analyze the atom-field interaction by retrieving the atom from the cavity and by measuring its final state.

Condensed Matter::Quantum GasesQuantum PhysicsMaterials scienceField (physics)Resonator modeFOS: Physical sciencesGeneral Physics and Astronomychemistry.chemical_elementPhysics::Opticslaw.inventionDipoleFinesseCoupling (physics)chemistrylawCaesiumOptical cavityAtomPhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsAtomic physicsQuantum Physics (quant-ph)
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Addressing optical pixel bits in a slab of dense optical material via intrinsic optical bistability

2007

It is well known that dense materials with local-field effects can show "intrinsic" optical bistability when they are directly irradiated by a light beam. This has been shown theoretically in a number of works and also experimentally in several cases, in gas media and also in doped solid-state materials where nonlinearities based on standard local-field effects can be reinforced with other ion interaction effects. Although from the point of view of applications nonlinearities stronger than those found so far would be desirable, the fact that no optical resonator is needed to achieve bistability makes these materials potentially interesting for applications in optical information storage and…

DiffractionDiffusion (acoustics)Materials scienceBistabilitybusiness.industryDopingOptical bistabilitylaw.inventionOpticslawOptical cavityOptoelectronicsLight beambusinessAbsorption (electromagnetic radiation)2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference
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Experimental demonstration of hyperbolic patterns.

2008

We give experimental evidence of hyperbolic patterns in a nonlinear optical resonator. Such transverse patterns are a new kind of 2D dissipative structures, characterized by a distribution of the active modes along hyperbolas in the transverse wave-vector domain, in contrast with the usual (elliptic) patterns where the active modes distribute along rings. The hyperbolic character is realized by manipulating diffraction inside the optical resonator with cylindrical lenses. We also investigate theoretically hyperbolic patterns in corresponding Swift-Hohenberg models.

DiffractionPhysicsTransverse planeResonatorClassical mechanicslawOptical cavityDissipative systemGeneral Physics and AstronomyPattern formationDomain (mathematical analysis)Hyperbolalaw.inventionPhysical review letters
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Dissipative rogue wave generation in multiple-pulsing mode-locked fiber laser

2013

Following the first experimental observation of a new mechanism leading to optical rogue wave (RW) formation briefly reported in Lecaplain et al (2012 Phys. Rev. Lett. 108 233901), we provide an extensive study of the experimental conditions under which these RWs can be detected. RWs originate from the nonlinear interactions of bunched chaotic pulses that propagate in a fiber laser cavity, and manifest as rare events of high optical intensity. The crucial influence of the electrical detection bandwidth is illustrated. We also clarify the observation of RWs with respect to other pulsating regimes, such as Q-switching instability, that also lead to L-shaped probability distribution functions.…

Dissipative systemChaoticPhysics::OpticsSolitonsInstabilitylaw.inventionOpticslawFiber laserRogue waveOptical rogue wavesExtreme eventPhysicsbusiness.industryFiber laserOptical rogue wavesDissipative solitonsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsNonlinear systemNonlinear dynamicsOptical cavityMode-locked laserDissipative systemChaosbusinessJournal of Optics
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