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Squeezed photon-number noise and sub-Poissonian electrical partition noise in a semiconductor laser (1991)

Richardson, W. H. ; Yamamoto, Y. ; Machida, S.

In: Other Sources

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Publication Date: 2011-08-19

Description: Amplitude noise on the light from a semiconductor laser produced a photocurrent fluctuation spectrum that was a maximum of 85 percent (-8.3 dB) below the shot-noise limit. Squeezing in semiconductor lasers is not limited by the overall quantum, or current transfer, efficiency from the laser injection current to the detector photocurrent. Current leakage away from the lasing junction does not introduce Poissonian partition noise.

Keywords: LASERS AND MASERS

Type: Physical Review Letters (ISSN 0031-9007); 66; 2867-287

Format: text

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Quantum correlation between the junction-voltage fluctuation and the photon-number fluctuation in a semiconductor laser (1991)

Richardson, W. H. ; Yamamoto, Y.

In: Other Sources

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Publication Date: 2011-08-19

Description: The photon-number fluctuation of the external field from a semiconductor laser - which was reduced to below the standard quantum limit - is shown to be correlated with the measured junction-voltage noise. The spectral density of the sum of the photon-number fluctuation and junction-voltage fluctuation falls below the squeezed photon-number fluctuation. This confirms the theoretical predictions that this correlation, which originates in the dipole interaction between the internal field and electron-hole pairs, extends into the quantum regime.

Keywords: LASERS AND MASERS

Type: Physical Review Letters (ISSN 0031-9007); 66; 1963-196

Format: text

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Inertial electrostatic confinement as a power source for electric propulsion (1993)

Schulze, N. ; Nebel, R. ; Burton, R. ; [et al.]

In: CASI

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Publication Date: 2019-08-27

Description: The potential use of an Inertial Electrostatic Confinement (IEC) power source for space propulsion has previously been suggested by the authors and others. In the past, these discussions have generally followed the charged-particle electric-discharge engine (QED) concept proposed by Bussard, in which the IEC is used to generate an electron beam which vaporizes liquid hydrogen for use as a propellant. However, in the present study, we consider an alternate approach, using the IEC to drive a conventional electric thruster unit. This has the advantage of building on the rapidly developing technology for such thrusters, which operate at higher specific impulse. Key issues related to this approach include the continued successful development of the physics and engineering of the IEC unit, as well as the development of efficient step-down dc voltage transformers. The IEC operates by radial injection of energetic ions into a spherical vessel. A very high ion density is created in a small core region at the center of the vessel, resulting in extremely high fusion power density in the core. Present experiments at the U. of Illinois in small IEC devices (less than 60-cm. dia.) have demonstrated much of the basic physics underlying this concept, e.g. producing approximately 10(exp 6) D-D neutrons/sec steady-state with deuterium gas flow injection. The ultimate goal is to increase the power densities by several orders of magnitude and to convert to D-He-3 injection. If successful, such an experiment would represent a milestone proof-of-principle device for eventual space power use. Further discussion of IEC physics and status will be presented with a description of the overall propulsion system and estimated performance.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: NASA. Lewis Research Center, Vision 21: Interdisciplinary Science and Engineering in the Era of Cyberspace; p 185-229

Format: application/pdf

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Inertial electrostatic confinement as a power source for electric propulsion (1993)

Yamamoto, Y. ; Nebel, R. ; Miley, G. H. ; [et al.]

In: CASI

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Publication Date: 2019-08-28

Description: The potential use of an INERTIAL ELECTROSTATIC CONFINEMENT (IEC) power source for space propulsion has previously been suggested by the authors and others. In the past, these discussions have generally followed the charged-particle electric-discharge engine (QED) concept proposed by Bussard, in which the IEC is used to generate an electron beam which vaporizes liquid hydrogen for use as a propellant. However, an alternate approach is considered, using the IEC to drive a 'conventional' electric thruster unit. This has the advantage of building on the rapidly developing technology for such thrusters, which operate at higher specific impulse. Key issues related to this approach include the continued successful development of the physics and engineering of the IEC unit, as well as the development of efficient step-down dc voltage transformers. The IEC operates by radial injection of energetic ions into a spherical vessel. A very high ion density is created in a small core region at the center of the vessel, resulting in extremely high fusion power density in the core. Experiments at the U. of Illinois in small IEC devices (is less than 60 cm. dia.) demonstrated much of the basic physics underlying this concept, e.g. producing 10(exp 6) D-D neutrons/sec steady-state with deuterium gas flow injection. The ultimate goal is to increase the power densities by several orders of magnitude and to convert to D-He-3 injection. If successful, such an experiment would represent a milestone proof-of-principle device for eventual space power use. Further discussion of IEC physics and status are presented with a description of the overall propulsion system and estimated performance.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: NASA-TM-109228 , NAS 1.15:109228 , FSL-422 , Vision 21 Conference; Mar 30, 1993 - Mar 31, 1993; Cleveland, OH; United States

Format: application/pdf

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