1-d examples
... A technical difficulty: The energy eigenstates are not normalizable (check it!) – and hence they are unphysical! Remedy: Ok, so apparently you can’t have a free particle with a definite energy or momentum (as we’ll see later, according to the uncertainty principle, if you know a particle’s exact mo ...
... A technical difficulty: The energy eigenstates are not normalizable (check it!) – and hence they are unphysical! Remedy: Ok, so apparently you can’t have a free particle with a definite energy or momentum (as we’ll see later, according to the uncertainty principle, if you know a particle’s exact mo ...
Why quantum field theory?
... probability of detecting the particle identically zero in the entire forbidden region |~x − ~y | > ct. To include the second process, we will first frame the first process, the one we have discussed so far, as the following thought experiment. One observer, whom we shall all Alice, is located at pos ...
... probability of detecting the particle identically zero in the entire forbidden region |~x − ~y | > ct. To include the second process, we will first frame the first process, the one we have discussed so far, as the following thought experiment. One observer, whom we shall all Alice, is located at pos ...
ONE HUNDRED YEARS OF LIGHT QUANTA
... phenomenon, and that these waves, of whatever sort they might be, interpenetrate one another like waves on the surface of a pond. The wave displacements, in other words, add up algebraically. That’s called superposition, and it was found thus that if you have two waves that remain lastingly in step ...
... phenomenon, and that these waves, of whatever sort they might be, interpenetrate one another like waves on the surface of a pond. The wave displacements, in other words, add up algebraically. That’s called superposition, and it was found thus that if you have two waves that remain lastingly in step ...
Free-Space distribution of entanglement and single photons over
... violate this limit with a maximum value of S = 2 2 ≈ 2.828 . In our experiment, typically measuring over a time of 221 s with 7058 coincidence-events in total, we found S = 2.508±0.037, demonstrating the violation of the local realistic limit by more than 13 standard deviations. One of the photon is ...
... violate this limit with a maximum value of S = 2 2 ≈ 2.828 . In our experiment, typically measuring over a time of 221 s with 7058 coincidence-events in total, we found S = 2.508±0.037, demonstrating the violation of the local realistic limit by more than 13 standard deviations. One of the photon is ...
PROCESS PHYSICS:
... apparatus, which is on earth and surely moving through 3space. Earth orbit speed about sun is 30km/s Expect differences in speed to be very small and very difficult to detect: 1/100,000 Michelson used an interferometer which exploits wave nature of light. Device effect is of order (1/100,000)(1/10 ...
... apparatus, which is on earth and surely moving through 3space. Earth orbit speed about sun is 30km/s Expect differences in speed to be very small and very difficult to detect: 1/100,000 Michelson used an interferometer which exploits wave nature of light. Device effect is of order (1/100,000)(1/10 ...
The uncertainty principle, virtual particles and real forces
... The starting point for the argument is that we assume that our quantum waves share all properties shared by ordinary waves. Here we start with sound. The teacher/lecturer is invited to sing two nearly identical notes in very short bursts. The students are asked to say which is the higher. (The same ...
... The starting point for the argument is that we assume that our quantum waves share all properties shared by ordinary waves. Here we start with sound. The teacher/lecturer is invited to sing two nearly identical notes in very short bursts. The students are asked to say which is the higher. (The same ...
Aalborg Universitet CERN Experiment and Violation of Newton’s Second Law
... this order, only the given energy by particles must be considered and there no need to use the relativistic mass relation. We can better understand and explain the physical phenomena by using Newton’s second law as a relation (12). Through such a view of physical and astrophysical phenomena, the exp ...
... this order, only the given energy by particles must be considered and there no need to use the relativistic mass relation. We can better understand and explain the physical phenomena by using Newton’s second law as a relation (12). Through such a view of physical and astrophysical phenomena, the exp ...
arXiv:1605.02181v1 [quant
... absorber in the right arm of each large interferometer. Therefore, due to Zeno effect, the photon remains on the left side of large interferometers and ends up in detector D1 , Fig. 5a. If, however, all small interferometers are blocked, the Zeno effect in small interferometers prevents losing the p ...
... absorber in the right arm of each large interferometer. Therefore, due to Zeno effect, the photon remains on the left side of large interferometers and ends up in detector D1 , Fig. 5a. If, however, all small interferometers are blocked, the Zeno effect in small interferometers prevents losing the p ...
Observation of Gravitationally Induced Quantum Interference
... Phase of a neutron wave function. Other experiments employing single beams, e.g. , free-fall' or double-crystal experiments that could detect a change in X with vertical position y, depend on Planck's constant only if Bragg reflection is used as a technique for velocity selection. If Fermi choppers ...
... Phase of a neutron wave function. Other experiments employing single beams, e.g. , free-fall' or double-crystal experiments that could detect a change in X with vertical position y, depend on Planck's constant only if Bragg reflection is used as a technique for velocity selection. If Fermi choppers ...
MICHELSON-MORLEY EXPERIMENTS REVISITED and the
... to be in conflict with Einstein’s assumption. The work of Hardy [9] and Percival [10] suggested that ‘double-EPR’ experiments could reveal an absolute frame, and hence absolute motion, though such experiments for this purpose would be extremely difficult. However the old Michelson-Morley interferome ...
... to be in conflict with Einstein’s assumption. The work of Hardy [9] and Percival [10] suggested that ‘double-EPR’ experiments could reveal an absolute frame, and hence absolute motion, though such experiments for this purpose would be extremely difficult. However the old Michelson-Morley interferome ...
PowerPoint 演示文稿
... Einstein-Podolsky-Rosen Elements of Reality In quantum mechanics in the case of two physical quantities described by non-commuting operators, the knowledge of one precludes the knowledge of the other. Then either (1) the description of reality given by the wave function in quantum mechanics is not ...
... Einstein-Podolsky-Rosen Elements of Reality In quantum mechanics in the case of two physical quantities described by non-commuting operators, the knowledge of one precludes the knowledge of the other. Then either (1) the description of reality given by the wave function in quantum mechanics is not ...
- Ingineeri.com
... pass through a polarization filter, but if it emerges it will be aligned with the filter regardless of its initial state; there are no partial photons. Information about the photon's polarization can be determined by using a photon detector to determine whether it passed through a filter. "Entangled ...
... pass through a polarization filter, but if it emerges it will be aligned with the filter regardless of its initial state; there are no partial photons. Information about the photon's polarization can be determined by using a photon detector to determine whether it passed through a filter. "Entangled ...
Cavity QED 1
... There are two competing rates: the atom in the excited state coherently emitting a photon into the cavity and the atom emitting incoherently in free space ...
... There are two competing rates: the atom in the excited state coherently emitting a photon into the cavity and the atom emitting incoherently in free space ...
De Broglie Wavelets versus Schrodinger Wave Functions
... Broglie wavelet and a Schrodinger-type traveling wave function. The shapepreserving, localized de Broglie wave-packet moves at a velocity v and exhibits a ballistic classical trajectory. In addition to such a localized de Broglie wavelet, there is another Schrodinger-type delocalized wave carrier mo ...
... Broglie wavelet and a Schrodinger-type traveling wave function. The shapepreserving, localized de Broglie wave-packet moves at a velocity v and exhibits a ballistic classical trajectory. In addition to such a localized de Broglie wavelet, there is another Schrodinger-type delocalized wave carrier mo ...
