RT Conference Proceedings
T1 European Semiconductor Laser Workshop. Madrid, Spain, september 24-25th 2015: Abstract book
A2 Universidad Carlos III de Madrid, 
AB The workshop provides the opportunity for informal discussions about recent advances and achievements in the field of semiconductor laser diodes, related devices and their applications. The workshop is arranged in the form of invited talks, contributed presentations, both oral and poster.
YR 2015
FD 2015-09
LK https://hdl.handle.net/10016/21645
UL https://hdl.handle.net/10016/21645
LA eng
NO Abstracts of: European Semiconductor Laser Workshop. Madrid, Spain, September 24-25th 2015.
NO Contiene: Session ID, 1-1: Semiconductor lasers with high-order surface gratings for optical communications applications. (pp. 1-2).-- Session ID, 1-2: Performance of a Three-Section Master Oscillator Power Amplifier at 1.5 μm. (pp. 3-4).-- Session ID, 1-3: Improved optical field stability in high-power laser diodes with multi-stripe gain distribution. (pp. 5-6).-- Session ID, 1-4: Longitudinal Multimode Instabilities in Master Oscillator Power Amplifiers at 1.5 μm. (pp. 7-8).-- Session ID, 1-5: Dissipative Light Bullets in Passively Mode-Locked Semiconductor Lasers. (pp. 9-10).-- Session ID, 1-6: Theoretical investigation of multi-mode dynamics and mode-locking in an inhomogeneously broadened laser. (pp. 11-12).-- Session ID, 1-7: Temperature and current dependence of 1/f frequency noise in narrow-linewidth discrete-mode lasers. (pp. 13-14).-- Session ID, 1-8: Directive emission from multimode lasers with subwavelength transverse dimensions. (pp. 15-16).-- Session ID, 1-9: High performances of very long (13.5mm) tapered laser emitting at 975nm. (pp. 17-18).-- Session ID, 1-10: High-frequency pulsating dynamics in a laser diode with phase-conjugate feedback. (pp. 29-20).-- Session ID, 1-11: Quantum dot lasers with two-wavelength emission- Routes to improved modulation capabilities. (pp. 21-22).-- Session ID, 1-12: Double-state lasing in an InAs/GaAs quantum dot laser diode: microscopic mechanism. (pp. 23-24).-- Session ID, 1-13: Widely tunable narrow-linewidth light sources based on quantum dot gain material for future highcapacitance coherent optical communication. (pp. 25-26).-- Session ID, 2-1: A near thresholdless laser at room temperature. (pp. 27-28).-- Session ID, 2-2: High temperature operation of 1.55 μm InAs quantum dot lasers with high T0 and T1 values. (pp. 29-30).-- Session ID, 2-3: Do we understand the origin of the degradation of InGaN laser diodes? (pp. 31-32).-- Session ID, 2-4: Impact of InAlGaAs QW strain and output coupling on dynamic characteristics of 1.3-mm wafer fused VCSELs. (pp. 33-34).-- Session ID, 2-5: Dynamic characteristics of electrically pumped waveguide-coupled metal-cavity nanoLEDs. (pp. 35-36).-- Session ID, 2-6: Wideband Chaos with Time-Delay Concealment in Three Cascaded Vertical-Cavity Surface-Emitting Lasers. (pp. 37-38).-- Session ID, 2-7: State-dependent delay dynamics in semiconductor lasers. (pp. 39-40).-- Session ID, 2-8: Experimental characterization of semiconductor laser dynamics by phase-space tomography. (pp. 41-42).-- Session ID, 2-9: Experimental and theoretical study of polarization switching in 1550 nm VCSELs subject to parallel optical injection. (pp. 43-44).-- Session ID, 2-10: Controllable Domain Walls and Antiperiodic Regimes in Injected Lasers with Delayed Feedback. (p. 45).-- Session ID, 2-11: Control of Rogue Waves in Optically Injected Semiconductor Lasers. (p. 46).-- Session ID, 2-12: Deterministic optical rogue waves in a laser diode with time- delayed feedback. (pp. 47-48).-- Session ID, 2-13: Photonic integrated circuits for low-noise microwave generation. (pp. 49-50).-- Session ID, 2-14: Optical Frequency Comb Generator based on a Monolithically Integrated Ring Laser. (pp. 51-52).-- Session ID, 2-15: Widely Tunable MIR Sources. (p. 53).-- Session ID, 2-16: Electrically pumped mid-infrared VCSELs using type-II quantum wells. (p. 54-55).-  Session ID, 2-17: Widely tunable laser source operating at 2μm realized as monolithic InP photonic integrated circuit. (pp. 56-57).-- Poster ID, 1: Analysis of the effects of periodic forcing in the Spike Rate and Spike Correlation's in Semiconductor Lasers with Optical Feedback. (p. 58).-- Poster ID, 2: Towards high indium content nitride laser diodes. (pp. 59-60)
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