
Q QUANTUM COHERENCE PROGRESS
... macroscopic systems — should not behave quantum mechanically. As I show in the next section, however, de-Broglie-type arguments are too simplistic. First, entanglement can be found in macroscopic systems4 (including at high temperatures5). And, second, entanglement turns out to be crucial for explai ...
... macroscopic systems — should not behave quantum mechanically. As I show in the next section, however, de-Broglie-type arguments are too simplistic. First, entanglement can be found in macroscopic systems4 (including at high temperatures5). And, second, entanglement turns out to be crucial for explai ...
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... are re-written in the usual way of thermodynamics for indistinguishable particles. For the system of distinguishable particles, the “reduced” entropy S red instead of the original entropy S defines the thermodynamical variables of the system. Our presentation is somehow a straightforward way to just ...
... are re-written in the usual way of thermodynamics for indistinguishable particles. For the system of distinguishable particles, the “reduced” entropy S red instead of the original entropy S defines the thermodynamical variables of the system. Our presentation is somehow a straightforward way to just ...
Desperately Seeking SUSY h (University of Cambridge) Please ask questions while I’m talking
... If one gives up R−parity, χ01 is no longer a good dark matter candidate, since it decays. One then has to have something else, eg: • Gravitino - still decays, but lifetime may be much longer than the age of the universe • Hidden sector matter • Axion/axino The implications of each of these is that ( ...
... If one gives up R−parity, χ01 is no longer a good dark matter candidate, since it decays. One then has to have something else, eg: • Gravitino - still decays, but lifetime may be much longer than the age of the universe • Hidden sector matter • Axion/axino The implications of each of these is that ( ...
Fabrication and characterization of single luminescing quantum dots
... been of great help in the project, but also a fun partner to discuss arts and give "different" presentations with. May you continue our project with great success and harvest many results! At the workplace, the lab environment is one thing, but then there is the office, and lucky are those who enjoy ...
... been of great help in the project, but also a fun partner to discuss arts and give "different" presentations with. May you continue our project with great success and harvest many results! At the workplace, the lab environment is one thing, but then there is the office, and lucky are those who enjoy ...
Past Research
... rings, such as Hopf algebras and group-graded algebras. My research program has involved collaborations with many mathematicians, including work with postdocs and graduate students. Below is a summary of some of my past research projects, which fall loosely into three categories: Hochschild cohomolo ...
... rings, such as Hopf algebras and group-graded algebras. My research program has involved collaborations with many mathematicians, including work with postdocs and graduate students. Below is a summary of some of my past research projects, which fall loosely into three categories: Hochschild cohomolo ...
Electronic transport in graphene nanostructures on SiO
... Studies of the temperature dependence of the conductance were reported in Refs. [40,41]. These experiments confirmed the importance of the Coulomb interaction for transport, and found a temperature dependence consistent with Shklovskii–Efros variable-range hopping conduction [42]. However, it is not ...
... Studies of the temperature dependence of the conductance were reported in Refs. [40,41]. These experiments confirmed the importance of the Coulomb interaction for transport, and found a temperature dependence consistent with Shklovskii–Efros variable-range hopping conduction [42]. However, it is not ...
Good Families of Quantum Low-Density
... using quantum LDPC error-correcting codes would require sparse local physical interactions. Therefore, the study of quantum LDPC codes can impact the development of scalable quantum computers. It is promising that DiVicenzo [15] has envisioned that quantum computing architectures could be further de ...
... using quantum LDPC error-correcting codes would require sparse local physical interactions. Therefore, the study of quantum LDPC codes can impact the development of scalable quantum computers. It is promising that DiVicenzo [15] has envisioned that quantum computing architectures could be further de ...
TOPICS IN QUANTUM NANOSTRUCTURE PHYSICS: SPIN-ORBIT EFFECTS AND FAR-INFRARED RESPONSE TEMES DE F´
... the three spatial components of the density, which in addition is a simpler both conceptually and practically quantity to deal with. On the other hand, the exchange-correlation part of the electron-electron interaction, neglected or only partially taken into account in the above-mentioned approaches ...
... the three spatial components of the density, which in addition is a simpler both conceptually and practically quantity to deal with. On the other hand, the exchange-correlation part of the electron-electron interaction, neglected or only partially taken into account in the above-mentioned approaches ...
HBNI Th65 - The Institute of Mathematical Sciences
... studied over the last few decades. But there are other correlations that are motivated from an information-theoretic or measurement perspective, which try to capture this classicalquantum boundary [2]. These include quantum discord, classical correlation, measurement induced disturbance, quantum def ...
... studied over the last few decades. But there are other correlations that are motivated from an information-theoretic or measurement perspective, which try to capture this classicalquantum boundary [2]. These include quantum discord, classical correlation, measurement induced disturbance, quantum def ...
Bell's theorem
Bell's theorem is a ‘no-go theorem’ that draws an important distinction between quantum mechanics (QM) and the world as described by classical mechanics. This theorem is named after John Stewart Bell.In its simplest form, Bell's theorem states:Cornell solid-state physicist David Mermin has described the appraisals of the importance of Bell's theorem in the physics community as ranging from ""indifference"" to ""wild extravagance"". Lawrence Berkeley particle physicist Henry Stapp declared: ""Bell's theorem is the most profound discovery of science.""Bell's theorem rules out local hidden variables as a viable explanation of quantum mechanics (though it still leaves the door open for non-local hidden variables). Bell concluded:Bell summarized one of the least popular ways to address the theorem, superdeterminism, in a 1985 BBC Radio interview: