Exploring Quantum Physics with Superconducting Circuits
... • … or any microscopic/macroscopic quantum element or ensemble thereof with an appreciable dipole moment A. Blais, et al., PRA 69, 062320 (2004) A. Wallraff et al., Nature (London) 431, 162 (2004) ...
... • … or any microscopic/macroscopic quantum element or ensemble thereof with an appreciable dipole moment A. Blais, et al., PRA 69, 062320 (2004) A. Wallraff et al., Nature (London) 431, 162 (2004) ...
pickettpresentationp..
... incoming thermal excitations on the detector wire because of the shielding effect of the vorticity. The vortices throw “shadows” on the wire in the “illumination” of thermal excitations. It’s not a violation of the Second Law! ...
... incoming thermal excitations on the detector wire because of the shielding effect of the vorticity. The vortices throw “shadows” on the wire in the “illumination” of thermal excitations. It’s not a violation of the Second Law! ...
LHCC
... The Z0, can decay to hadrons via qq pairs, into charged leptons e+e-,mm,tt or into neutral lepton pairs: n en e ,n mn m ,n tn t The total width is the sum of the partial widths for each decay mode. The observed gives for the number of flavours: ...
... The Z0, can decay to hadrons via qq pairs, into charged leptons e+e-,mm,tt or into neutral lepton pairs: n en e ,n mn m ,n tn t The total width is the sum of the partial widths for each decay mode. The observed gives for the number of flavours: ...
PDF only - at www.arxiv.org.
... (where P is “a raffle is held” and S is “there are no entrants”) because when raffles are held, people generally enter them. That is, the best we can do is to say “If a raffle were held, there might be no entrants,” with S being a highly unlikely occurrence. Thus the introduction of the antecedent P ...
... (where P is “a raffle is held” and S is “there are no entrants”) because when raffles are held, people generally enter them. That is, the best we can do is to say “If a raffle were held, there might be no entrants,” with S being a highly unlikely occurrence. Thus the introduction of the antecedent P ...
Quantum tomography of an electron - Hal-CEA
... (QPC). The split-gate voltage VG controls the transmission D of the onedimensional electronic mode formed at the QPC. A d.c. voltage VR (not shown) and a weak a.c. voltage VLO(t) 5 (kgLOhn0/e)cos(2pkn0(t 2 t)) are applied to the right contact The latter generates a small flux of electrons and holes ...
... (QPC). The split-gate voltage VG controls the transmission D of the onedimensional electronic mode formed at the QPC. A d.c. voltage VR (not shown) and a weak a.c. voltage VLO(t) 5 (kgLOhn0/e)cos(2pkn0(t 2 t)) are applied to the right contact The latter generates a small flux of electrons and holes ...
Law of Conservation of Muons
... summarized by the invariance of the laws of nature under permutation of two primitive leptons (say e' and p' ). If the e' and p, ' can make transitions into each other, they will not be observed as particles, but instead certain linear combinations; e =(p, '+e')iv2, p = (p'- e') j+2, which would be ...
... summarized by the invariance of the laws of nature under permutation of two primitive leptons (say e' and p' ). If the e' and p, ' can make transitions into each other, they will not be observed as particles, but instead certain linear combinations; e =(p, '+e')iv2, p = (p'- e') j+2, which would be ...
Non-classical computing - Mathematical and Computer Sciences
... can conceptualise systems capable of computing with real number quantities (for example a quantum computer is modelled with qubits which are parameterised by unconstrained real values and evolve continuously in time) but, even if physical systems do in fact function “objectively” in this way (this i ...
... can conceptualise systems capable of computing with real number quantities (for example a quantum computer is modelled with qubits which are parameterised by unconstrained real values and evolve continuously in time) but, even if physical systems do in fact function “objectively” in this way (this i ...
Particle Spin and the Stern
... half integer values for the spin quantum number s in addition to the integer values. This theoretical result is confirmed by experiment. In nature there exist elementary particles for which s = 21 , 32 , 52 . . . such as the electron, proton, neutron, quark (all of which have spin s = 12 ), and more ...
... half integer values for the spin quantum number s in addition to the integer values. This theoretical result is confirmed by experiment. In nature there exist elementary particles for which s = 21 , 32 , 52 . . . such as the electron, proton, neutron, quark (all of which have spin s = 12 ), and more ...
spin-up
... An experiment measures the reaction rate R for p n at x 0. If the experiment was moved to x a the same rate R would be observed. This is equivalent to not moving the original experiment but redefining the x-axis through a translation: x ' x a instead. The laws of physics ...
... An experiment measures the reaction rate R for p n at x 0. If the experiment was moved to x a the same rate R would be observed. This is equivalent to not moving the original experiment but redefining the x-axis through a translation: x ' x a instead. The laws of physics ...
Prof. Makarova Lecture 1 - pcam
... For electrons with opposite spin (in a metal), this probability distribution looks pretty flat: electrons with opposite spin are free to run over each other, and they do. But electrons with the same spin must never be at the same location at the same time, and thus the probability distribution ...
... For electrons with opposite spin (in a metal), this probability distribution looks pretty flat: electrons with opposite spin are free to run over each other, and they do. But electrons with the same spin must never be at the same location at the same time, and thus the probability distribution ...
無投影片標題 - Shaw Communications
... possibility of an electron with positive energy would be the same as one with negative energy. Since it’s predicted in the math. ...
... possibility of an electron with positive energy would be the same as one with negative energy. Since it’s predicted in the math. ...
Introduction to quantum mechanics
... In some respect, quantum mechanics is just another example of a system governed by a wave equation. In fact, we will find below that some quantum mechanical systems have exact analogies to systems we’ve already studied in this book. So the results can be carried over, with no modifications whatsoeve ...
... In some respect, quantum mechanics is just another example of a system governed by a wave equation. In fact, we will find below that some quantum mechanical systems have exact analogies to systems we’ve already studied in this book. So the results can be carried over, with no modifications whatsoeve ...
A Quantum Structure Description of the Liar Paradox
... behaviour can be found in very different layers of reality. The success of these theories demonstrates that interesting conclusions about the nature of reality can be inferred from the encountered structural similarities of dynamical behaviour in different regions of reality. Chaos and complexity th ...
... behaviour can be found in very different layers of reality. The success of these theories demonstrates that interesting conclusions about the nature of reality can be inferred from the encountered structural similarities of dynamical behaviour in different regions of reality. Chaos and complexity th ...
Bell's theorem
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Bell's theorem is a ‘no-go theorem’ that draws an important distinction between quantum mechanics (QM) and the world as described by classical mechanics. This theorem is named after John Stewart Bell.In its simplest form, Bell's theorem states:Cornell solid-state physicist David Mermin has described the appraisals of the importance of Bell's theorem in the physics community as ranging from ""indifference"" to ""wild extravagance"". Lawrence Berkeley particle physicist Henry Stapp declared: ""Bell's theorem is the most profound discovery of science.""Bell's theorem rules out local hidden variables as a viable explanation of quantum mechanics (though it still leaves the door open for non-local hidden variables). Bell concluded:Bell summarized one of the least popular ways to address the theorem, superdeterminism, in a 1985 BBC Radio interview: