but quantum computing is in its infancy.
... and subatomic particles (including electrons, photons, protons, neutrinos and other minuscule dots of nature) that they exist in a haze of possibility rather than in any fixed state. A microscopic particle can be both here and there at the same instant of time, which means that it can also be in eve ...
... and subatomic particles (including electrons, photons, protons, neutrinos and other minuscule dots of nature) that they exist in a haze of possibility rather than in any fixed state. A microscopic particle can be both here and there at the same instant of time, which means that it can also be in eve ...
Transition Probability (Fidelity) and its Relatives
... The topic of the paper concerns transition probability and fidelity for general (i. e. mixed) states and some of its descendants. It belongs, metaphorically spoken, to the “skeleton” or to the “grammar” of Quantum Physics in which dynamics does not play a significant role. The needs of Quantum Infor ...
... The topic of the paper concerns transition probability and fidelity for general (i. e. mixed) states and some of its descendants. It belongs, metaphorically spoken, to the “skeleton” or to the “grammar” of Quantum Physics in which dynamics does not play a significant role. The needs of Quantum Infor ...
Revisiting quantum optics with surface plasmons
... coupled to an electromagnetic field at a plane interface between a metal and a dielectric medium. As photons, SPPs can be considered either as waves or as bosonic particles [1] and they can experience striking quantum interferences such as Hong-Ou-Mandel (HOM) effect [2]. We use in this paper a plas ...
... coupled to an electromagnetic field at a plane interface between a metal and a dielectric medium. As photons, SPPs can be considered either as waves or as bosonic particles [1] and they can experience striking quantum interferences such as Hong-Ou-Mandel (HOM) effect [2]. We use in this paper a plas ...
I. Waves & Particles
... A. Waves Wavelength () - length of one complete wave; units of m or nm Frequency () - # of waves that pass a point during a certain time period hertz (Hz) = 1/s Amplitude (A) - distance from the origin to the trough or crest ...
... A. Waves Wavelength () - length of one complete wave; units of m or nm Frequency () - # of waves that pass a point during a certain time period hertz (Hz) = 1/s Amplitude (A) - distance from the origin to the trough or crest ...
Document
... significant spin-orbit coupling (relativistic effect). Energy also depends on J. • For very heavy atoms, a j-j coupling is needed, where j = l + s for each electron. ...
... significant spin-orbit coupling (relativistic effect). Energy also depends on J. • For very heavy atoms, a j-j coupling is needed, where j = l + s for each electron. ...
Introduction Slides
... units remains very important It appears to predict the atom would radiate all the time from the orbiting electron The atom does not “look” like this it is not a small “point” electron in a classical orbit ...
... units remains very important It appears to predict the atom would radiate all the time from the orbiting electron The atom does not “look” like this it is not a small “point” electron in a classical orbit ...
Inverse quantum mechanics of the hydrogen atom: A
... Intensive laboratory research over much of the past decade at the Technical University of Eindhoven 1 and at Blacklight Power, see Ref. [3] for a review of the several publications in refereed journals, on what has come to be known as the “hydrino” state of hydrogen has sent theorists scurrying to e ...
... Intensive laboratory research over much of the past decade at the Technical University of Eindhoven 1 and at Blacklight Power, see Ref. [3] for a review of the several publications in refereed journals, on what has come to be known as the “hydrino” state of hydrogen has sent theorists scurrying to e ...
