Progress in electron- and ion-interferometry

Hasselbach, F.

doi:10.1088/0034-4885/73/1/016101

Cited by 120 publications

(161 citation statements)

References 314 publications

(452 reference statements)

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“…The first real single-electron interference experiments that were conducted were electron-biprism experiments (for a review see Refs. 47,48) in which single electrons either pass to the left or to the right of a conducting wire (there are no real slits in this type of experiments). [49][50][51] In these experiments the interference pattern is built up from many independent detection events.…”

Section: Two-slit Experiments With Electronsmentioning

confidence: 99%

Event-based simulation of quantum physics experiments

Michielsen

Raedt

2014

Int. J. Mod. Phys. C

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We review an event-based simulation approach which reproduces the statistical distributions of wave theory not by requiring the knowledge of the solution of the wave equation of the whole system but by generating detection events oneby-one according to an unknown distribution. We illustrate its applicability to various single photon and single neutron interferometry experiments and to two Bell-test experiments, a single-photon Einstein-Podolsky-Rosen experiment employing post-selection for photon pair identification and a single-neutron Bell test interferometry experiment with nearly 100% detection efficiency.

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Section: Two-slit Experiments With Electronsmentioning

confidence: 99%

Event-based simulation of quantum physics experiments

Michielsen

Raedt

2014

Int. J. Mod. Phys. C

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“…1 and is described in detail elsewhere [9,[15][16][17]. In our approach the electron beam is field emitted by an etched tungsten tip that is covered with a monolayer of iridium and annealed to form a protrusion in the nanometer regime [18,19].…”

Section: Setupmentioning

confidence: 99%

Electron matter wave interferences at high vacuum pressures

Schütz¹,

Rembold²,

Pooch³

et al. 2015

Measurement

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The ability to trap and guide coherent electrons is gaining importance in fundamental as well as in applied physics. In this regard novel quantum devices are currently developed that may operate under low vacuum conditions. Here we study the loss of electron coherence with increasing background gas pressure. Thereby, optionally helium, hydrogen or nitrogen is introduced in a biprism interferometer where the interference contrast is a measure for the coherence of the electrons. The results indicate a constant contrast that is not decreasing in the examined pressure range between 10 −9 mbar and 10 −4 mbar. Therefore, no decoherence was observed even under poor vacuum conditions. Due to scattering of the electron beam with background H2-molecules a signal loss of 94 % was determined. The results may lower the vacuum requirements for novel quantum devices with free coherent electrons.

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“…It is worth mentioning that this calculation should turn out to be useful to explain the Sagnac effect [17][18][19][20]. This experiment, originally proposed and performed with light and later repeated with massive particles, amounts to perform a two-slit type interference experiment, when the whole apparatus is fixed on a turntable.…”

Section: How Minimal Is the "Minimal Action"?mentioning

confidence: 99%

The Maslov correction in the semiclassical Feynman integral

Horváthy

2010

Open Physics

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Abstract:The Maslov correction to the wave function is the jump of (− π 2 ) in the phase when the system passes through a caustic. This can be explained by studying the second variation and the geometry of paths, as conveniently seen in Feynman's path integral framework. The results can be extended to any system using the semiclassical approximation. The 1-dimensional harmonic oscillator is used to illustrate the different derivations reviewed here.

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Progress in electron- and ion-interferometry

Cited by 120 publications

References 314 publications

Event-based simulation of quantum physics experiments

Event-based simulation of quantum physics experiments

Electron matter wave interferences at high vacuum pressures

The Maslov correction in the semiclassical Feynman integral

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