Disorder-induced order with ultra-cold atoms
... already led to seminal breakthroughs like the creation of a Bose-Einstein Condensate [Anderson et al., 1995, Davis et al., 1995], the transition between Mott Insulator and Superfluid [Greiner et al., 2002], as well as the above-mentioned creation of Anderson Localization in matter waves. Due to the ...
... already led to seminal breakthroughs like the creation of a Bose-Einstein Condensate [Anderson et al., 1995, Davis et al., 1995], the transition between Mott Insulator and Superfluid [Greiner et al., 2002], as well as the above-mentioned creation of Anderson Localization in matter waves. Due to the ...
Novel Results for Condensed Matter Systems with Time Reversal Symmetry
... regime of Coulomb Blockade [10]. The fact that superconductivity is associated with breaking of particle number conservation hints at the idea that in mesoscopic systems superconductivity can quite different from that of bulk systems. In this work we focus on extreme case of the so-called zerodimens ...
... regime of Coulomb Blockade [10]. The fact that superconductivity is associated with breaking of particle number conservation hints at the idea that in mesoscopic systems superconductivity can quite different from that of bulk systems. In this work we focus on extreme case of the so-called zerodimens ...
review on the quantum spin Hall effect by Macijeko, Hughes, and
... Symmetry appears to be a profound organizational principle of nature. Beautifully symmetric natural patterns are ubiquitous, ranging from spiral galaxies and nearly spherical planets to the fivefold symmetry of starfish and the helical symmetry of DNA. Symmetry also turns out to be a remarkably usef ...
... Symmetry appears to be a profound organizational principle of nature. Beautifully symmetric natural patterns are ubiquitous, ranging from spiral galaxies and nearly spherical planets to the fivefold symmetry of starfish and the helical symmetry of DNA. Symmetry also turns out to be a remarkably usef ...
Algebraic Topology Foundations of Supersymmetry and Symmetry
... several, meaningful ways are key to linking abstract, quantum operator algebras and symmetry properties with actual numerical computations of quantum eigenvalues and their eigenstates, as well as a wide variety of numerical factors involved in computing quantum dynamics. The wellknown connection bet ...
... several, meaningful ways are key to linking abstract, quantum operator algebras and symmetry properties with actual numerical computations of quantum eigenvalues and their eigenstates, as well as a wide variety of numerical factors involved in computing quantum dynamics. The wellknown connection bet ...
Physics 2000
... of physics. Although often frustrating, physics in the last decimal place has a beauty of its own, as those who practice it will confirm. We are taught to do our physics by isolating the variables. In the last decimal place, however, one never knows what other physics will intrude on this sound prin ...
... of physics. Although often frustrating, physics in the last decimal place has a beauty of its own, as those who practice it will confirm. We are taught to do our physics by isolating the variables. In the last decimal place, however, one never knows what other physics will intrude on this sound prin ...
Module P8.3 Multi
... some empirical rules for working out the maximum number of electrons that may be found in any particular shell or subshell; Subsection 3.2 introduces the s-p-d-f notation for labelling subshells which allows us to write the electronic configuration of an atom in a convenient shorthand way (Subsectio ...
... some empirical rules for working out the maximum number of electrons that may be found in any particular shell or subshell; Subsection 3.2 introduces the s-p-d-f notation for labelling subshells which allows us to write the electronic configuration of an atom in a convenient shorthand way (Subsectio ...
