The Concept of the Inert Mass in Macroscopic Physics and - if
... the vacuum itself excludes a phase transition to a static limit even hypothetically (To avoid a misunderstanding: our argument does not contradict the current definition of static or rest mass for example for an elementary particle: we argue that this seemingly static concept just reflects the neces ...
... the vacuum itself excludes a phase transition to a static limit even hypothetically (To avoid a misunderstanding: our argument does not contradict the current definition of static or rest mass for example for an elementary particle: we argue that this seemingly static concept just reflects the neces ...
lec22
... Plugging in numbers gives Ex = 1.1x106 N/C and Ey = 4.4x106 N/C. It may look like my solution took more steps than necessary, but beware of skipped steps. Skipping steps is asking for trouble! How could you calculate the force on an electron placed at point A? How would you calculate the electric fi ...
... Plugging in numbers gives Ex = 1.1x106 N/C and Ey = 4.4x106 N/C. It may look like my solution took more steps than necessary, but beware of skipped steps. Skipping steps is asking for trouble! How could you calculate the force on an electron placed at point A? How would you calculate the electric fi ...
Quantum analogue computing
... of 10−3 to 10−4 , the more error correction is necessary (Devitt et al. 2009). These threshold error rates are smaller than any experiment has yet achieved. For low error rates, maybe 20–200 physical qubits per logical qubit are sufficient, while for high error rates (close to the threshold), it blow ...
... of 10−3 to 10−4 , the more error correction is necessary (Devitt et al. 2009). These threshold error rates are smaller than any experiment has yet achieved. For low error rates, maybe 20–200 physical qubits per logical qubit are sufficient, while for high error rates (close to the threshold), it blow ...
Universal computation by multi-particle quantum walk
... • Establishes the computational power of interacting many-body systems such as the BoseHubbard model, fermions with nearest neighbour interactions, and more. Our method for performing universal computation exploits the connection between quantum walk and a discrete version of scattering theory [Farh ...
... • Establishes the computational power of interacting many-body systems such as the BoseHubbard model, fermions with nearest neighbour interactions, and more. Our method for performing universal computation exploits the connection between quantum walk and a discrete version of scattering theory [Farh ...
Full text in PDF form
... of quantum entropy in photons and other particles subjected to the laws of quantum mechanics. However, Neumann' s entropy lacked a clear interpretation in terms of information theory. It was Schumacher [16], who showed that Neumann's entropy has indeed a related meaning. Moreover, Holevo [17], and L ...
... of quantum entropy in photons and other particles subjected to the laws of quantum mechanics. However, Neumann' s entropy lacked a clear interpretation in terms of information theory. It was Schumacher [16], who showed that Neumann's entropy has indeed a related meaning. Moreover, Holevo [17], and L ...
full publication (PDF 0.6MB)
... basis states that all have the same number of down spins. In other words, the Hamiltonian for an array of L spins is a block-diagonal matrix, with one block for each number of down spins. It is useful to think of each down spin as a quasiparticle, and the state of all up spins as the vacuum state. T ...
... basis states that all have the same number of down spins. In other words, the Hamiltonian for an array of L spins is a block-diagonal matrix, with one block for each number of down spins. It is useful to think of each down spin as a quasiparticle, and the state of all up spins as the vacuum state. T ...
Particle Physics Notes
... We are in place to understand the so-called standard model of particles. 4.10. Standard model-- elementary particles We now know that the structure of newly discovered hadrons are composite particles by using 3 quarks and their anti-quarks. The investigation of particle physics revealed that In orde ...
... We are in place to understand the so-called standard model of particles. 4.10. Standard model-- elementary particles We now know that the structure of newly discovered hadrons are composite particles by using 3 quarks and their anti-quarks. The investigation of particle physics revealed that In orde ...
- Philsci
... ensemble contributes the shift of the pointer proportional not to one of the eigenvalues, but to the expectation value. This essential novel point has been repeatedly stressed by the inventors of protective measurement (see, e.g. Aharonov, Anandan and Vaidman 1996). As we know, in the orthodox inter ...
... ensemble contributes the shift of the pointer proportional not to one of the eigenvalues, but to the expectation value. This essential novel point has been repeatedly stressed by the inventors of protective measurement (see, e.g. Aharonov, Anandan and Vaidman 1996). As we know, in the orthodox inter ...
Individuality and Indiscernibility
... On this definition, Max Black’s spheres do not count as identical. Let Rxy stand for “x is two miles from y.” Consider a valuation that assigns one sphere to x and the other to y.1 On this valuation, the sentence (2) comes out false. Each sphere is not two miles from exactly those things that the ot ...
... On this definition, Max Black’s spheres do not count as identical. Let Rxy stand for “x is two miles from y.” Consider a valuation that assigns one sphere to x and the other to y.1 On this valuation, the sentence (2) comes out false. Each sphere is not two miles from exactly those things that the ot ...
tianhu.pdf
... thermoelastic theories. In the context of Lord–Shulman theory, Sherief and Ezzat (1998) investigated a problem of an infinitely long electrically and thermally conducting annular cylinder in generalized magneto-thermoelasticity by Laplace transforms, and the third class thermal boundary condition wa ...
... thermoelastic theories. In the context of Lord–Shulman theory, Sherief and Ezzat (1998) investigated a problem of an infinitely long electrically and thermally conducting annular cylinder in generalized magneto-thermoelasticity by Laplace transforms, and the third class thermal boundary condition wa ...
A Brief Review of Elementary Quantum Chemistry
... In 1886 and 1887, Heinrich Hertz discovered that ultraviolet light can cause electrons to be ejected from a metal surface. According to the classical wave theory of light, the intensity of the light determines the amplitude of the wave, and so a greater light intensity should cause the electrons on ...
... In 1886 and 1887, Heinrich Hertz discovered that ultraviolet light can cause electrons to be ejected from a metal surface. According to the classical wave theory of light, the intensity of the light determines the amplitude of the wave, and so a greater light intensity should cause the electrons on ...
Why Antennas Radiate
... fields produced by time varying antenna RF currents are discussed. In all cases, fields are produced both by stationary charge and charge in motion. All charge we assume to be connected through fields. We observe that the fields change when charge is in motion relative to an observer. It is very imp ...
... fields produced by time varying antenna RF currents are discussed. In all cases, fields are produced both by stationary charge and charge in motion. All charge we assume to be connected through fields. We observe that the fields change when charge is in motion relative to an observer. It is very imp ...
Completeness, Supervenience, and Ontology
... is informationally complete, every physical fact about the electrons- both singly and jointly- is implied by the wavefunction. But the wavefunction does not ascribe any particular spin in any direction to either particle. So if the wavefunction is informationally complete neither particle has a spin ...
... is informationally complete, every physical fact about the electrons- both singly and jointly- is implied by the wavefunction. But the wavefunction does not ascribe any particular spin in any direction to either particle. So if the wavefunction is informationally complete neither particle has a spin ...
Detailed program - Ricardo Mendes Ribeiro
... and postdoctoral fellows, taught undergraduate as well as graduate courses, and contributed to the physics department in many ways. Shi-Jian’s research areas were condensed matter theory and quantum information. I will not go into details on Shi-Jian’s contributions, other than to point out that thr ...
... and postdoctoral fellows, taught undergraduate as well as graduate courses, and contributed to the physics department in many ways. Shi-Jian’s research areas were condensed matter theory and quantum information. I will not go into details on Shi-Jian’s contributions, other than to point out that thr ...