ADIABATIC QUANTUM COMPUTATION
... computer would be impossible. However, it seems Nature is capable of manipulating such enormous quantities of data during evolution of quantum systems and this huge computational power is really something we would like to take advantage of. Many physical systems can be used to represent qubits, for ...
... computer would be impossible. However, it seems Nature is capable of manipulating such enormous quantities of data during evolution of quantum systems and this huge computational power is really something we would like to take advantage of. Many physical systems can be used to represent qubits, for ...
A classical analogue for adiabatic Stark splitting in non-hydrogenic atoms Robicheaux
... with high angular momentum do not overlap with the nonCoulombic part of the potential and, thus, they behave similar to hydrogenic states: a small electric field induces a dipole moment which can have the electron either on the high or low potential energy side of the atom. This leads to a linear ch ...
... with high angular momentum do not overlap with the nonCoulombic part of the potential and, thus, they behave similar to hydrogenic states: a small electric field induces a dipole moment which can have the electron either on the high or low potential energy side of the atom. This leads to a linear ch ...
PLMCN10-orals-12-Monday-Mo-33
... O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Physical Review B 80, 115302 (2009). O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Nanotechnology 21, 134019 (2010). ...
... O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Physical Review B 80, 115302 (2009). O. L. Berman, R. Ya. Kezerashvili, and Yu. E. Lozovik, Nanotechnology 21, 134019 (2010). ...
Paper
... for speculative extensions of quantum mechanics where the collapse of the wave function is created by extra terms in a modified Schrödinger equation [14]. It is still an open question how close one can approach the limit of an infinite number of interrogations due to the Heisenberg uncertainty invo ...
... for speculative extensions of quantum mechanics where the collapse of the wave function is created by extra terms in a modified Schrödinger equation [14]. It is still an open question how close one can approach the limit of an infinite number of interrogations due to the Heisenberg uncertainty invo ...
Megavolt Parallel Potentials Arising from Double
... [25] result from electrons accelerated by double layers. At any rate, the observed double layers must play a significant role in radiation belt dynamics. The observed double layers travel at the 25 eV electron thermal or acoustic speed. This differs from the speed of an ion acoustic double layer com ...
... [25] result from electrons accelerated by double layers. At any rate, the observed double layers must play a significant role in radiation belt dynamics. The observed double layers travel at the 25 eV electron thermal or acoustic speed. This differs from the speed of an ion acoustic double layer com ...
UvA-DARE (Digital Academic Repository)
... During the introduction students S1 and S2 (group 1) showed that they assumed that electron interference can be explained by describing electrons with a wave function. From the experiment whereby the interference pattern is built up with single electrons, the students conclude that electrons do not ...
... During the introduction students S1 and S2 (group 1) showed that they assumed that electron interference can be explained by describing electrons with a wave function. From the experiment whereby the interference pattern is built up with single electrons, the students conclude that electrons do not ...
Pauli Exclusion Principle
... 7-31. The optical spectra of atoms with two electrons in the same outer shell are similar, but they are quite different from the spectra of atoms with just one outer electron because of the interaction of the two electrons. Separate the following elements into two groups such that those in each gro ...
... 7-31. The optical spectra of atoms with two electrons in the same outer shell are similar, but they are quite different from the spectra of atoms with just one outer electron because of the interaction of the two electrons. Separate the following elements into two groups such that those in each gro ...
On the correspondence principle
... (of inductance L) enclosing a Josephson junction (with capacitance C). of the chaotic Duffing oscillator. The classical dynamics is described though the evolution of a phase space distribution function that is the solution to the Liouville equation. This is compared with the dynamics of the Wigner f ...
... (of inductance L) enclosing a Josephson junction (with capacitance C). of the chaotic Duffing oscillator. The classical dynamics is described though the evolution of a phase space distribution function that is the solution to the Liouville equation. This is compared with the dynamics of the Wigner f ...
Hubbard model description of silicon spin qubits: charge stability
... from the data. However in our situation several complications arise. These Si quantum dot experiments are done in the multi-electron regime, and the exact electron occupancy (n1 , n2 ) is unknown. While the capacitance model predicts a periodic form of the charge stability diagram, the actual situat ...
... from the data. However in our situation several complications arise. These Si quantum dot experiments are done in the multi-electron regime, and the exact electron occupancy (n1 , n2 ) is unknown. While the capacitance model predicts a periodic form of the charge stability diagram, the actual situat ...
An equation for the waves - University College London
... hence to square of electromagnetic field strength. Postulate (Born interpretation): probability of finding particle in a small length δx at position x and time t is equal to ( x, t ) 2 x (2.6) ...
... hence to square of electromagnetic field strength. Postulate (Born interpretation): probability of finding particle in a small length δx at position x and time t is equal to ( x, t ) 2 x (2.6) ...
pdf version - IPS Meeting 2015
... publicity recently due to the movie Interstellar. Indeed, there is so much science packed in this movie that 2 hours and 49 minutes is barely enough time to absorb it all. In this talk, I will give a general overview of some of the essential physics used in the movie. Topics to be covered include: b ...
... publicity recently due to the movie Interstellar. Indeed, there is so much science packed in this movie that 2 hours and 49 minutes is barely enough time to absorb it all. In this talk, I will give a general overview of some of the essential physics used in the movie. Topics to be covered include: b ...
An information-theoretic perspective on the foundations of
... This thesis contains the work of the author he did as a research assistant from the summer of 2009 to now, under the supervision of Professor John Boccio of the Department of Physics and Astronomy at Swarthmore College. The nature of the work is along the lines of a "library thesis", as it aims to s ...
... This thesis contains the work of the author he did as a research assistant from the summer of 2009 to now, under the supervision of Professor John Boccio of the Department of Physics and Astronomy at Swarthmore College. The nature of the work is along the lines of a "library thesis", as it aims to s ...
- Natural Sciences Publishing
... matrix elements. In Section 3, we present our results and discussion of entanglement using various measures with focus on effects of atomic damping. Finally, in Section 4, we exhibit our conclusion. ...
... matrix elements. In Section 3, we present our results and discussion of entanglement using various measures with focus on effects of atomic damping. Finally, in Section 4, we exhibit our conclusion. ...
Quantum electrodynamics
In particle physics, quantum electrodynamics (QED) is the relativistic quantum field theory of electrodynamics. In essence, it describes how light and matter interact and is the first theory where full agreement between quantum mechanics and special relativity is achieved. QED mathematically describes all phenomena involving electrically charged particles interacting by means of exchange of photons and represents the quantum counterpart of classical electromagnetism giving a complete account of matter and light interaction.In technical terms, QED can be described as a perturbation theory of the electromagnetic quantum vacuum. Richard Feynman called it ""the jewel of physics"" for its extremely accurate predictions of quantities like the anomalous magnetic moment of the electron and the Lamb shift of the energy levels of hydrogen.