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Quantum interference in thermoelectric transport
Physical Review B, 1992The quantum-interference contribution to the phonon-drag component of the thermopower is considered. It is shown that in a typical experimental situation this contribution is suppressed due to dephasing caused by the relatively high frequencies of some phonons. Experiments concerning the quantum-interference contribution to thermoelectric transport are
, Afonin, , Galperin
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Nature, 1969
THE development of atomic time standards and high-speed recording techniques has allowed the extension of radio interferometry to baselines extending thousands of miles. The amplitude, rather than the power, of the received radiation is recorded separately at two or more stations with accurate time control, and the interference pattern is later ...
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THE development of atomic time standards and high-speed recording techniques has allowed the extension of radio interferometry to baselines extending thousands of miles. The amplitude, rather than the power, of the received radiation is recorded separately at two or more stations with accurate time control, and the interference pattern is later ...
openaire +1 more source
Quantum interference beyond the fringe
Science, 2017The discovery 30 years ago of the interference of pairs of photons signaled the onset of an era for quantum ...
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1990
Since 1985 experiments on submicron metallic and semiconducting structures have revealed three interrelated quantum effects: The Aharonov-Bohm effect, conductance fluctuations and non-local effects. The objective of this chapter is to explore theoretically the device implications of these exciting developments. The primary emphasis (Sect. 10.2) is on a
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Since 1985 experiments on submicron metallic and semiconducting structures have revealed three interrelated quantum effects: The Aharonov-Bohm effect, conductance fluctuations and non-local effects. The objective of this chapter is to explore theoretically the device implications of these exciting developments. The primary emphasis (Sect. 10.2) is on a
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Quantum interference of identical photons from remote GaAs quantum dots
Nature Nanotechnology, 2022Liang Zhai +2 more
exaly
Quantum microscopy based on Hong–Ou–Mandel interference
Nature Photonics, 2022Bienvenu Ndagano +2 more
exaly
Observation of quantum interference in molecular charge transport
Nature Nanotechnology, 2012Hennie Valkenier +2 more
exaly
On-chip quantum interference between silicon photon-pair sources
Nature Photonics, 2013Val Zwiller
exaly