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200 10$aScattering matrix approach to non-stationary quantum transport$b[electronic resource] /$fMichael V. Moskalets
210   $aLondon $cImperial College Press ;$aSingapore ;$aHackensack N.J. $cWorld Scientific Publishing [distributor]$dc2012
215   $a1 online resource (297 p.)
300   $aDescription based upon print version of record.
311   $a1-84816-834-9 
320   $aIncludes bibliographic references (p.-261-276) and index.
327   $a1.4.6.1 Spectrum1.4.6.2 Circulating current; 2. Current noise; 2.1 Nature of a current noise; 2.1.1 Thermal noise; 2.1.2 Shot noise; 2.1.3 Combined noise; 2.2 Sample with continuous spectrum; 2.2.1 Current correlator; 2.2.2 Current correlator in the frequency domain; 2.2.2.1 Correlator for incoming currents; 2.2.2.2 Correlator for incoming and outgoing currents; 2.2.2.3 Correlator for outgoing currents; 2.2.3 Spectral noise power for energy-independent scattering; 2.2.4 Zero frequency noise power; 2.2.4.1 Noise power conservation law; 2.2.4.2 Sign rule for the noise power
327   $a2.2.4.3 Scatterer with two leads2.2.5 Fano factor; 3. Non-stationary scattering theory; 3.1 Schr  dinger equation with a potential periodic in time; 3.1.1 Perturbation theory; 3.1.2 Floquet functions method; 3.1.3 Potential oscillating in time and uniform in space; 3.2 Floquet scattering matrix; 3.2.1 Floquet scattering matrix properties; 3.2.1.1 Unitarity; 3.2.1.2 Micro-reversibility; 3.3 Current operator; 3.3.1 Alternating current; 3.3.2 Direct current; 3.4 Adiabatic approximation for the Floquet scattering matrix; 3.4.1 Frozen scattering matrix; 3.4.2 Zeroth-order approximation
327   $a3.4.3 First-order approximation3.5 Beyond the adiabatic approximation; 3.5.1 Scattering matrix in mixed energy-time representation; 3.5.2 Dynamic point-like potential; 3.5.3 Dynamic double-barrier potential; 3.5.3.1 Adiabatic approximation; 3.5.4 Unitarity and the sum over trajectories; 3.5.5 Current and the sum over trajectories; 3.5.5.1 Temperature-independent contribution to generated current; 3.5.5.2 Contribution to generated current dependent on temperature; 3.5.5.3 Nature of two contributions to generated current; 4. Direct current generated by the dynamic scatterer
327   $a4.1 Steady particle flow4.1.1 Distribution function; 4.1.2 Adiabatic regime: Current linear in the pump frequency; 4.1.3 Current quadratic in the pump frequency; 4.2 Quantum pump effect; 4.2.1 Quasi-particle picture of direct current generation; 4.2.2 Interference mechanism of direct current generation; 4.3 Single-parameter adiabatic direct current generation; 5. Alternating current generated by the dynamic scatterer; 5.1 Adiabatic alternating current; 5.2 External AC bias; 5.2.1 Second quantization operators for incident and scattered electrons; 5.2.2 Alternating current
327   $a5.2.3 Direct current
330   $aThe aim of this book is to introduce the basic elements of the scattering matrix approach to transport phenomena in dynamical quantum systems of non-interacting electrons. This approach admits a physically clear and transparent description of transport processes in dynamical mesoscopic systems promising basic elements of solid-state devices for quantum information processing. One of the key effects, the quantum pump effect, is considered in detail. In addition, the theory for a recently implemented new dynamical source - injecting electrons with time delay much larger than the electron coheren
606   $aS-matrix theory
606   $aTransport theory
608   $aElectronic books.
615  0$aS-matrix theory.
615  0$aTransport theory.
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700   $aMoskalets$b Michael V$0477309
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200 10$aSmall satellites for earth observation$b[electronic resource] $eselected proceedings of the 5th International Symposium of the International Academy of Astronautics, Berlin, April 4-8 2005 /$fedited by Hans-Peter Ro?ser, Rainer Sandau, Arnoldo Valenzuela
210   $aBerlin $cWalter De Gruyter$d2005
215   $a1 online resource (463 p.)
300   $aDescription based upon print version of record.
311   $a3-11-018851-1 
320   $aIncludes bibliographical references.
327   $asection 2. Earth observation missions -- section 3. Constellations & platforms -- section 4. Results & lessons learned -- section 5. Educational programs -- section 6. Student conference -- section 7. Instruments -- section 8. Special aspects -- section 9. Earth explorer -- section 10. Orbit & attitude determination -- sectioni 11. Subsystems -- section 12. Attitude control -- section 13. Data transmission & ground stations -- section 14. Technology demonstration -- section 15. Disaster monitoring.
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606   $aArtificial satellites in remote sensing$vCongresses
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615  0$aArtificial satellites in remote sensing
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