Paper
... Distorted density profiles do not imply superfluidity. Strongly interacting Fermi gases already show distorted profiles in the normal phase (6, 8). It is only the observation of an abrupt change as a function of temperature that can indicate superfluidity and allows one to distinguish distortions du ...
... Distorted density profiles do not imply superfluidity. Strongly interacting Fermi gases already show distorted profiles in the normal phase (6, 8). It is only the observation of an abrupt change as a function of temperature that can indicate superfluidity and allows one to distinguish distortions du ...
Electricity & Optics Physics 24100 Lecture 4 – Chapter 22 sec. 2-3
... • Gauss’s law works for the trivial example of a point charge, but it is also true in general. • It is true even for continuous charge distributions. • Next example: an infinite line of charge. ...
... • Gauss’s law works for the trivial example of a point charge, but it is also true in general. • It is true even for continuous charge distributions. • Next example: an infinite line of charge. ...
preskill_grad_students13
... Not the frontier of short (subnuclear) distances or long (cosmological) distances, but rather the frontier of highly complex quantum states: The entanglement frontier Also: emergence of classicality, security of quantum cryptographic protocols, foundations of statistical mechanics and thermalization ...
... Not the frontier of short (subnuclear) distances or long (cosmological) distances, but rather the frontier of highly complex quantum states: The entanglement frontier Also: emergence of classicality, security of quantum cryptographic protocols, foundations of statistical mechanics and thermalization ...
Unit 6: Thermal Physics
... displacement that occurs with the performance of work. • Write a mathematical statement for calculating the work accomplished by a given force and demonstrate that the equation is dimensionally correct. • Define the foot-pound, the joule, and the erg as FPS, SI, and cgs units of both work and energy ...
... displacement that occurs with the performance of work. • Write a mathematical statement for calculating the work accomplished by a given force and demonstrate that the equation is dimensionally correct. • Define the foot-pound, the joule, and the erg as FPS, SI, and cgs units of both work and energy ...
Document
... Thus, the self-induced EMF must be proportional to the time rate of change of the current ...
... Thus, the self-induced EMF must be proportional to the time rate of change of the current ...
Chapter 2
... A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. When it strikes the opposite plate, which one has more KE? ...
... A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. When it strikes the opposite plate, which one has more KE? ...
Introduction to EM
... Describes how an electric field affects and is affected by a dielectric medium Relates to the ability of a material to transmit (or “permit”) an electric field. Each material has a unique value of permittivity. Permittivity of free space; ...
... Describes how an electric field affects and is affected by a dielectric medium Relates to the ability of a material to transmit (or “permit”) an electric field. Each material has a unique value of permittivity. Permittivity of free space; ...
PHYS-2020: General Physics II Course Lecture Notes Section VI Dr. Donald G. Luttermoser
... where N = number of coil ‘turns’ across length ` in the solenoid, n = N/` is the number of turns per unit length, A is the crosssectional area of the solenoid, and V is the total volume inside the solenoid. 4. From Eq. (VI-11) we see that changing the magnetic flux causes the current to change, whic ...
... where N = number of coil ‘turns’ across length ` in the solenoid, n = N/` is the number of turns per unit length, A is the crosssectional area of the solenoid, and V is the total volume inside the solenoid. 4. From Eq. (VI-11) we see that changing the magnetic flux causes the current to change, whic ...
Topological phases of matter
... • The longitudinal resistance becomes zero since all electrons can flow freely at the edge of system without any back-scattering. ...
... • The longitudinal resistance becomes zero since all electrons can flow freely at the edge of system without any back-scattering. ...
Electrically controllable g tensors in quantum dot
... experimentally9,10 and theoretically.11–13 In self-assembled dots, the g factors have been found to be almost isotropic within the growth plane.14,15 In addition, the tunability of quantum dot g factors, which has been investigated both theoretically16 and experimentally,17 is rather limited because ...
... experimentally9,10 and theoretically.11–13 In self-assembled dots, the g factors have been found to be almost isotropic within the growth plane.14,15 In addition, the tunability of quantum dot g factors, which has been investigated both theoretically16 and experimentally,17 is rather limited because ...
ESI Bose-Einstein Condensation as a Quantum Phase Transition in an Optical Lattice
... as a transition between a superfluid and a Mott insulator that was studied in [5] with an application to He4 in porous media in mind. The possibility of applying this scheme to gases of alkali atoms in optical traps was first realized in [6]. The article [7] reviews these developments and many recen ...
... as a transition between a superfluid and a Mott insulator that was studied in [5] with an application to He4 in porous media in mind. The possibility of applying this scheme to gases of alkali atoms in optical traps was first realized in [6]. The article [7] reviews these developments and many recen ...