Quantum engineering with ultracold atoms
... the number of quantum states a system can assume, which is exponential in the number of constituents. For instance, to simulate the spins of N electrons, we need to store and manipulate 2N coefficients. For N = 50 this is already a number too large to handle for most computers. Even the famous law o ...
... the number of quantum states a system can assume, which is exponential in the number of constituents. For instance, to simulate the spins of N electrons, we need to store and manipulate 2N coefficients. For N = 50 this is already a number too large to handle for most computers. Even the famous law o ...
Quantum Theory of Condensed Matter (260 Pages)
... first to take on this responsibility. The prospect of trying to choose fifty participants to represent a field as broad as condensed matter physics seemed especially daunting. In organizing the conference, I did indeed have to make some rather painful decisions, as there were many people I wished I ...
... first to take on this responsibility. The prospect of trying to choose fifty participants to represent a field as broad as condensed matter physics seemed especially daunting. In organizing the conference, I did indeed have to make some rather painful decisions, as there were many people I wished I ...
Intensity interferometry experiments in a scanning
... in the g (2) (τ ), namely that the autocorrelation function is less than one at short delay τ ≈ 0. Few months before my arrival in the STEM-group of the LPS, an intensity interferometry experiment (HBT) that measures the autocorrelation function g (2) (τ ) of the CL signal intensity was built [2]. I ...
... in the g (2) (τ ), namely that the autocorrelation function is less than one at short delay τ ≈ 0. Few months before my arrival in the STEM-group of the LPS, an intensity interferometry experiment (HBT) that measures the autocorrelation function g (2) (τ ) of the CL signal intensity was built [2]. I ...
pptx - Curtis A. Meyer
... which are particles with different QNs. The masses peak where the two lines are. The need for intensity and the phase difference are indicative of two resonances. Can fit for masses and widths. ...
... which are particles with different QNs. The masses peak where the two lines are. The need for intensity and the phase difference are indicative of two resonances. Can fit for masses and widths. ...
Semiconductor Physics Sectional Programme Overview
... of the surrounding wetting layer. Such segregation, well known for two-dimensional InAs/GaAs growth, had not been directly observed so far on top of the dots, and should be considered to model size and composition of GaAs-overgrown structures. [1] G. Biasiol et al., Appl. Phys. Lett. 87 (21), in pre ...
... of the surrounding wetting layer. Such segregation, well known for two-dimensional InAs/GaAs growth, had not been directly observed so far on top of the dots, and should be considered to model size and composition of GaAs-overgrown structures. [1] G. Biasiol et al., Appl. Phys. Lett. 87 (21), in pre ...
QUANTUM ELECTRONICS IN SEMICONDUCTORS
... properties and behaviours. In particular, it has been shown that by manipulating these gases with electric and magnetic fields, they can be made to exhibit all of the familiar quantum effects of undergraduate and postgraduate quantum courses. This having been said though, many of the experimental in ...
... properties and behaviours. In particular, it has been shown that by manipulating these gases with electric and magnetic fields, they can be made to exhibit all of the familiar quantum effects of undergraduate and postgraduate quantum courses. This having been said though, many of the experimental in ...
Physics - Collegiate Quiz Bowl Packet
... deformation of moons, but his most famous work was mailed to Einstein from the Eastern Front during WWI, where he died before realizing fame from finding the first solution to Einstein’s field equations. The spatial metric for a spherical mass distribution, as well as the singularity point in that s ...
... deformation of moons, but his most famous work was mailed to Einstein from the Eastern Front during WWI, where he died before realizing fame from finding the first solution to Einstein’s field equations. The spatial metric for a spherical mass distribution, as well as the singularity point in that s ...