CHAPTER 3 PARTICLE IN BOX (PIB) MODELS
... If a substance absorbs light in the blue region of the visible spectrum, the color of the transmitted (or reflected) light will be red. ...
... If a substance absorbs light in the blue region of the visible spectrum, the color of the transmitted (or reflected) light will be red. ...
Decoherence of a Quantum Bit Circuit
... provided by the hyperfine interaction with a bound electron around each impurity. Each qubit is controlled by applying a voltage to an A gate electrode that displaces slightly the wavefunction of the bound electron, and thus modifies the hyperfine interaction. The two qubit operations are performed ...
... provided by the hyperfine interaction with a bound electron around each impurity. Each qubit is controlled by applying a voltage to an A gate electrode that displaces slightly the wavefunction of the bound electron, and thus modifies the hyperfine interaction. The two qubit operations are performed ...
Five Lecture Course on Basic Physics of
... • It is important that at such low temperatures a superconductor can be considered to be a single large quantum particle or molecule which is characterized by a single (BCS) wave function. • A huge amount of electrons is incorporated into a single quantum state. This is not possible for normal elect ...
... • It is important that at such low temperatures a superconductor can be considered to be a single large quantum particle or molecule which is characterized by a single (BCS) wave function. • A huge amount of electrons is incorporated into a single quantum state. This is not possible for normal elect ...
Janiszewski_washington_0250E_13369
... where A is the area of the event horizon, kB is the Boltzmann constant, c is the speed of light, ~ is Planck’s constant, and GN is Newton’s gravitational constant. Even more interesting than the existence of black hole entropy is that it is the maximal amount of entropy a system in a given volume ca ...
... where A is the area of the event horizon, kB is the Boltzmann constant, c is the speed of light, ~ is Planck’s constant, and GN is Newton’s gravitational constant. Even more interesting than the existence of black hole entropy is that it is the maximal amount of entropy a system in a given volume ca ...
How to remove the spurious resonances from ring polymer molecular... Mariana Rossi, Michele Ceriotti, and David E. Manolopoulos
... Since the multi-dimensional generalisation is straightforward,8 and it does not add anything other than more indices, we shall present all of the following equations for a model one-dimensional system with a Hamiltonian of the form ...
... Since the multi-dimensional generalisation is straightforward,8 and it does not add anything other than more indices, we shall present all of the following equations for a model one-dimensional system with a Hamiltonian of the form ...
Quantum Mechanics from Self
... In the absence of external fields, p is constant and the zbw centerline is a straight timelike line. The zbw persists, however; so if we wish to explain why the electron behaves so strangely, there appears to be no more likely option than to attribute the zbw to electromagnetic self-interaction. Thu ...
... In the absence of external fields, p is constant and the zbw centerline is a straight timelike line. The zbw persists, however; so if we wish to explain why the electron behaves so strangely, there appears to be no more likely option than to attribute the zbw to electromagnetic self-interaction. Thu ...
Josephson Effect and Selected Applications: an Example
... positional coordinates to 6 (or less), whatever the initial number of coordinates. The possibility of describing a macroscopic body through classical mechanics is a huge simplification, if compared to a quantum mechanical description. Our problem is the following: classical mechanics does not predic ...
... positional coordinates to 6 (or less), whatever the initial number of coordinates. The possibility of describing a macroscopic body through classical mechanics is a huge simplification, if compared to a quantum mechanical description. Our problem is the following: classical mechanics does not predic ...
StMalloQuantumComputing
... Quantum Latin word meaning “some quantity”. In physics used with the same meaning as the word discrete in mathematics, i.e., some quantity or variable that can take only sharply defined values as opposed to a continuously varying quantity. The concepts continuum and continuous are known from geome ...
... Quantum Latin word meaning “some quantity”. In physics used with the same meaning as the word discrete in mathematics, i.e., some quantity or variable that can take only sharply defined values as opposed to a continuously varying quantity. The concepts continuum and continuous are known from geome ...
Quantum many-particle electron transport in time-dependent systems with Bohmian trajectories by Alfonso Alarc´
... Schematic representation of the I-V curve of a typical RTD. The resonant energy inside the quantum well acts like an energetic filter that lets the electrons from the source to arrive at the drain. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RTD Current-voltage characte ...
... Schematic representation of the I-V curve of a typical RTD. The resonant energy inside the quantum well acts like an energetic filter that lets the electrons from the source to arrive at the drain. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RTD Current-voltage characte ...
Anyons and the quantum Hall effect— A pedagogical
... a classical point of view, as the electron, which cannot penetrate the solenoid, does not feel any Lorenz force when it moves. The second set-up is that of a ring, or an annulus, with a magnetic flux U going through the hole. The electron is now confined to the annulus and again does not experience an ...
... a classical point of view, as the electron, which cannot penetrate the solenoid, does not feel any Lorenz force when it moves. The second set-up is that of a ring, or an annulus, with a magnetic flux U going through the hole. The electron is now confined to the annulus and again does not experience an ...
Quantum Reflection at Strong Magnetic Fields
... This work now suggests to carry over this mechanism to the purely optical case by employing a highly sensitive “pump-probe” setup. A strong magnetic background field, created by a pump laser, modifies the QED vacuum to act as an effective potential for traversing probe photons. Since the magnetic fi ...
... This work now suggests to carry over this mechanism to the purely optical case by employing a highly sensitive “pump-probe” setup. A strong magnetic background field, created by a pump laser, modifies the QED vacuum to act as an effective potential for traversing probe photons. Since the magnetic fi ...
Connecting Blackbody Radiation, Relativity, and Discrete Charge in
... fundamental constant like Stefan’s constant as connecting the energy density u of thermal radiation and the absolute temperature T , u = as T 4 . Today relativistic physics is regarded as fundamental, not nonrelativistic mechanics. In particular, the relativistic Coulomb interaction between discrete ...
... fundamental constant like Stefan’s constant as connecting the energy density u of thermal radiation and the absolute temperature T , u = as T 4 . Today relativistic physics is regarded as fundamental, not nonrelativistic mechanics. In particular, the relativistic Coulomb interaction between discrete ...
