Ebook: Nonclassical Light from Semiconductor Lasers and LEDs
- Tags: Optics Optoelectronics Plasmonics and Optical Devices, Engineering general, Communications Engineering Networks
- Series: Springer Series in Photonics 5
- Year: 2001
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
The quantum statistical properties of the light wave generated in a semiconductor laser or a light-emitting diode (LED) has been a field of intense research for more than a decade. This research monograph discusses recent research activities in nonclassical light generation based on semiconductor devices. This volume is composed of four major parts. The first discusses the generation of sub-shot-noise light in macroscopic pn junction light-emitting devices, including semiconductor laser and light-emitting diodes. The second part discusses the application of squeezed light in high-precision measurement, including spectroscopy and interferometry. The third part addresses the Coulomb blockade effect in a mesoscopic pn junction and the generation of single photon states. The last part covers the detection of single photons using a visible light photon counter.
The quantum statistical properties of the light wave generated in a semiconductor laser or a light-emitting diode (LED) has been a field of intense research for more than a decade. This research monograph discusses recent research activities in nonclassical light generation based on semiconductor devices. This volume is composed of four major parts. The first discusses the generation of sub-shot-noise light in macroscopic pn junction light-emitting devices, including semiconductor laser and light-emitting diodes. The second part discusses the application of squeezed light in high-precision measurement, including spectroscopy and interferometry. The third part addresses the Coulomb blockade effect in a mesoscopic pn junction and the generation of single photon states. The last part covers the detection of single photons using a visible light photon counter.
The quantum statistical properties of the light wave generated in a semiconductor laser or a light-emitting diode (LED) has been a field of intense research for more than a decade. This research monograph discusses recent research activities in nonclassical light generation based on semiconductor devices. This volume is composed of four major parts. The first discusses the generation of sub-shot-noise light in macroscopic pn junction light-emitting devices, including semiconductor laser and light-emitting diodes. The second part discusses the application of squeezed light in high-precision measurement, including spectroscopy and interferometry. The third part addresses the Coulomb blockade effect in a mesoscopic pn junction and the generation of single photon states. The last part covers the detection of single photons using a visible light photon counter.
Content:
Front Matter....Pages I-XIV
Nonclassical Light....Pages 1-11
Noise of p—n Junction Light Emitters....Pages 13-30
Sub-Poissonian Light Generation in Light-Emitting Diodes....Pages 31-40
Amplitude-Squeezed Light Generation in Semiconductor Lasers....Pages 41-56
Excess Intensity Noise of a Semiconductor Laser with Nonlinear Gain and Loss....Pages 57-75
Transverse-Junction-Stripe Lasers for Squeezed Light Generation....Pages 77-88
Sub-Shot-Noise FM Spectroscopy....Pages 89-105
Sub-Shot-Noise FM Noise Spectroscopy....Pages 107-122
Sub-Shot-Noise Interferometry....Pages 123-136
Coulomb Blockade Effect in Mesoscopic p-n Junctions....Pages 137-154
Single-Photon Generation in a Single-Photon Turnstile Device....Pages 155-178
Single-Photon Detection with Visible-Light Photon Counter....Pages 179-205
Future Prospects....Pages 207-219
Back Matter....Pages 221-244
The quantum statistical properties of the light wave generated in a semiconductor laser or a light-emitting diode (LED) has been a field of intense research for more than a decade. This research monograph discusses recent research activities in nonclassical light generation based on semiconductor devices. This volume is composed of four major parts. The first discusses the generation of sub-shot-noise light in macroscopic pn junction light-emitting devices, including semiconductor laser and light-emitting diodes. The second part discusses the application of squeezed light in high-precision measurement, including spectroscopy and interferometry. The third part addresses the Coulomb blockade effect in a mesoscopic pn junction and the generation of single photon states. The last part covers the detection of single photons using a visible light photon counter.
Content:
Front Matter....Pages I-XIV
Nonclassical Light....Pages 1-11
Noise of p—n Junction Light Emitters....Pages 13-30
Sub-Poissonian Light Generation in Light-Emitting Diodes....Pages 31-40
Amplitude-Squeezed Light Generation in Semiconductor Lasers....Pages 41-56
Excess Intensity Noise of a Semiconductor Laser with Nonlinear Gain and Loss....Pages 57-75
Transverse-Junction-Stripe Lasers for Squeezed Light Generation....Pages 77-88
Sub-Shot-Noise FM Spectroscopy....Pages 89-105
Sub-Shot-Noise FM Noise Spectroscopy....Pages 107-122
Sub-Shot-Noise Interferometry....Pages 123-136
Coulomb Blockade Effect in Mesoscopic p-n Junctions....Pages 137-154
Single-Photon Generation in a Single-Photon Turnstile Device....Pages 155-178
Single-Photon Detection with Visible-Light Photon Counter....Pages 179-205
Future Prospects....Pages 207-219
Back Matter....Pages 221-244
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