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Quantum Cascade LaserWhat kind of a laser is this Quantum Cascade Laser ?How do conventional semiconductor lasers work ?Construction of the conventional semiconductor laserDisadvantage of the conventional semiconductor laserhow quantum cascade laser differs ?materialsSlide 10Slide 11characteristicsSlide 13Slide 14Slide 15ApplicationsSlide 17Quantum Cascade Laser Harishankar Jayakumar Optical communication seminarWhat kind of a laser is this Quantum Cascade Laser ?•This is a semiconductor laser.•But the characteristics of this laser are different from the conventional semiconductor lasers.How do conventional semiconductor lasers work ?•A semiconductor absorbs light when electrons are excited from the valance band to the conduction band.•Light is emitted when those electrons drop into the valance band.Construction of the conventional semiconductor laser•It has the active region which consists of two semiconductor materials forming a p-n junction•The injected electrons and holes in the active region recombine and create photons.Disadvantage of the conventional semiconductor laser•The band gap decides the wavelength of the laser. so to get the laser with different wavelength we have to choose a different material.•once an electron has emitted a laser photon by jumping from the upper to the lower energy level, it remains in the valence band.how quantum cascade laser differs ?•QC lasers rely only on the one type of carrier, they are the electrons.•So they are also called the unipolar lasers.•Photon emission therefore relies on intraband transitions between quantized conduction band states in coupled quantum wells.Quantum wells•Quantum wells are ultra thin sandwiches of two different semiconductors.•A quantum well is essentially a semiconductor with relatively low band gap energy sandwiched between semiconductor layers with high band gap energies •the thickness is typically a few nanometers, and electrons are confined primarily to the center part of the sandwich.Energy Levels•The series of discrete energy levels, whose separation can be directly controlled by changing the thickness of the quantum-well layers. •In QC lasers, the wavelength can be tailored over a wide spectral region, essentially the entire mid infrared and into the far-infrared.• In QC lasers, once an electron has emitted a laser photon by jumping from the upper to the lower energy level, it remains in the conducting band and from there, it is recycled by injection into an adjacent identical stage, where a second photon is emitted, and so forth, which creates as many laser photonsmaterials•At present two different lasers based on AlInAs/GaInAs and GaAs/AlGaAs material systems are developed. •Both structures consist of a periodic repetition of two regions, an as injector and a coupled quantum well active region.characteristics•Wavelength determined by thickness rather then by the material.•All mid infrared covered by the same material. This important spectral range has so far been accessible mainly with relatively unreliable and expensive lead salt based diode lasers.•Each electron creates N photons when it traverse N stage cascade structure.•High power lasers.•Low failure rate, robust fabrication and long life time.Applications•Environmental sensing and pollution monitoring- point sensors, LIDAR•Industrial process control.•Automotive- cruise control, collision avoidance radar.•Medical- breath analyzer, early detection of ulcers, colon cancer•Military applications.Thank


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UB EE 566 - Quantum Cascade Laser

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