Tailoring Optical Nonlinearities via the Purcell Effect
... frequency of the light that is sent in as a probe. By contrast, in the current work, it is only essential to modify the dispersion relation for the frequencies close to the atomic resonances; the dispersion at the frequency of the light sent in as a probe can remain quite ordinary. First, consider t ...
... frequency of the light that is sent in as a probe. By contrast, in the current work, it is only essential to modify the dispersion relation for the frequencies close to the atomic resonances; the dispersion at the frequency of the light sent in as a probe can remain quite ordinary. First, consider t ...
metal
... 2. What is the distribution of the non-equilibrium steady state? Quantum random walk, suppression of tunneling ...
... 2. What is the distribution of the non-equilibrium steady state? Quantum random walk, suppression of tunneling ...
Abstract - Institute for Nuclear Theory
... surface of the metallic pendulum. These eddy currents are, in turn, interact with the magnetic field; this provides the desired torque. A drawback of the current design is that it can only provide rotation in one direction, but there is a plan for alterations that would change the torque to be a re ...
... surface of the metallic pendulum. These eddy currents are, in turn, interact with the magnetic field; this provides the desired torque. A drawback of the current design is that it can only provide rotation in one direction, but there is a plan for alterations that would change the torque to be a re ...
Basic magnetic measurement methods
... M⃗ s= B⃗s / μ 0 demagnetization curve—the portion of a dc hysteresis loop that lies in the second (or fourth quadrant). Points on this curve are designated by the coordinates, Bd and Hd. remanence, Bdm—the maximum value of the remanent induction for a given geometry of the magnetic circuit. ...
... M⃗ s= B⃗s / μ 0 demagnetization curve—the portion of a dc hysteresis loop that lies in the second (or fourth quadrant). Points on this curve are designated by the coordinates, Bd and Hd. remanence, Bdm—the maximum value of the remanent induction for a given geometry of the magnetic circuit. ...
Revealing novel quantum phases in quantum antiferromagnets on
... Bose glass phases – exhibiting gapless spectra associated with low-energy localized excitations. Key words: Heisenberg antiferromagnets, quantum disorder, geometric randomness, percolation, Bose glass PACS: 75.10.Jm, 75.10.Nr, 75.40.Cx, 64.60.Ak ...
... Bose glass phases – exhibiting gapless spectra associated with low-energy localized excitations. Key words: Heisenberg antiferromagnets, quantum disorder, geometric randomness, percolation, Bose glass PACS: 75.10.Jm, 75.10.Nr, 75.40.Cx, 64.60.Ak ...
Document
... travel through the air. The frequency of the sound waves produced by the first tuning fork is 440 Hz, and the frequency of the sound waves produced by the second tuning fork is 880 Hz. If v1 denotes the speed of the sound waves produced by the first tuning fork and v2 denotes the speed of the sound ...
... travel through the air. The frequency of the sound waves produced by the first tuning fork is 440 Hz, and the frequency of the sound waves produced by the second tuning fork is 880 Hz. If v1 denotes the speed of the sound waves produced by the first tuning fork and v2 denotes the speed of the sound ...
PHS102 Lecture 25 Sep 2014 DLI Block 2 2nd Floor
... 10 C, placed at that point? 6. What is the electric field E experienced by a charge of magnitude 5 nC at a point where the electric force is 2 x 10-4 N in the x direction? If an electron is placed in this field, what force will be exerted on it? ...
... 10 C, placed at that point? 6. What is the electric field E experienced by a charge of magnitude 5 nC at a point where the electric force is 2 x 10-4 N in the x direction? If an electron is placed in this field, what force will be exerted on it? ...
The Computer Science Picture of Reality
... Elliptic curve crypto, Buchmann-Williams (Pell eqn)… • Suppose we had a classical cryptosystem that was as efficient and convenient as RSA, but was provably not breakable even on a quantum computer. • Then there would be an incentive to switch to the new cryptosystem, well before a large scale quant ...
... Elliptic curve crypto, Buchmann-Williams (Pell eqn)… • Suppose we had a classical cryptosystem that was as efficient and convenient as RSA, but was provably not breakable even on a quantum computer. • Then there would be an incentive to switch to the new cryptosystem, well before a large scale quant ...
