Quantum Superpositions and Causality: On the Multiple Paths to the
... It was Isaac Newton who was able to translate into a closed mathematical formalism both, the ontological presuppositions present in Aristotelian (Eleatic) logic and the materialistic ideal of ‘res extensa’ together with actuality as its mode of existence. In classical mechanics the representation of ...
... It was Isaac Newton who was able to translate into a closed mathematical formalism both, the ontological presuppositions present in Aristotelian (Eleatic) logic and the materialistic ideal of ‘res extensa’ together with actuality as its mode of existence. In classical mechanics the representation of ...
Maximal attainable boost and energy of elementary particles as a
... that space-time symmetry is described by a non compact group and that boosts and energies can acquire arbitrarily large values, there have been numerous attempts to modify the untamed growth of the boost and energy, see e.g. [3], [4]. Present note addresses this question. The suggested mechanism for ...
... that space-time symmetry is described by a non compact group and that boosts and energies can acquire arbitrarily large values, there have been numerous attempts to modify the untamed growth of the boost and energy, see e.g. [3], [4]. Present note addresses this question. The suggested mechanism for ...
Asia CMD Workshop - CMD-QE Laboratory
... respective developers from Osaka University, Japan. We are looking forward to seeing you in the campus of Institute of Technology Bandung. You may also enjoy the beautiful scenery of Bandung. ...
... respective developers from Osaka University, Japan. We are looking forward to seeing you in the campus of Institute of Technology Bandung. You may also enjoy the beautiful scenery of Bandung. ...
ONE HUNDRED YEARS OF LIGHT QUANTA
... To follow the history a bit further, Einstein began to realize in 1909 that his energy packets would have a momentum which, according to Maxwell, should be their energy divided by the velocity of light. These presumably localized packets would have to be emitted in single directions if they were to ...
... To follow the history a bit further, Einstein began to realize in 1909 that his energy packets would have a momentum which, according to Maxwell, should be their energy divided by the velocity of light. These presumably localized packets would have to be emitted in single directions if they were to ...
Quantum information processing with polar molecules
... Quantum Computing with Polar Molecules: quantum optics - solid state interfaces ...
... Quantum Computing with Polar Molecules: quantum optics - solid state interfaces ...
What`s the Matter?: Quantum Physics for Ordinary People
... barren, grassless island off the northern coast of Germany, taking with him atomic physics data on spectra, energy levels, etc. He had come to consider these measured quantities to be more significant than the ephemeral “unseen” variables in the models behind his theoretical calculations. In the iso ...
... barren, grassless island off the northern coast of Germany, taking with him atomic physics data on spectra, energy levels, etc. He had come to consider these measured quantities to be more significant than the ephemeral “unseen” variables in the models behind his theoretical calculations. In the iso ...
Quantum energy gaps and first-order mean-field transitions
... transition can be understood from a simple, qualitative argument. Quantum annealing could in principle be more efficient than thermal annealing for certain classes of problems: From the WKB approximation it is well known that a quantum particle tunnels rapidly through very high (in energy) but thin ...
... transition can be understood from a simple, qualitative argument. Quantum annealing could in principle be more efficient than thermal annealing for certain classes of problems: From the WKB approximation it is well known that a quantum particle tunnels rapidly through very high (in energy) but thin ...
Lieb-Robinson Bounds and the Speed of Light from
... Finally, we have discussed the implications of the finite speed of signals for cosmology and the horizon problem. We acknowledge discussions with X.-G. Wen and B. Swingle and D. Abasto. Research at Perimeter Institute for Theoretical Physics is supported in part by the Government of Canada through N ...
... Finally, we have discussed the implications of the finite speed of signals for cosmology and the horizon problem. We acknowledge discussions with X.-G. Wen and B. Swingle and D. Abasto. Research at Perimeter Institute for Theoretical Physics is supported in part by the Government of Canada through N ...
Physics of Single-Electron Transistors and Doped Mott Insulators M. Kastner
... from quantum fluctuations, and also a pseudodipolar interaction. Some of these small interactions also come into play in other lamellar cuprates, connected with the high-Tc superconductivity materials, and in many spin-chain and spin-ladder compounds. The classical ground state of this system is deg ...
... from quantum fluctuations, and also a pseudodipolar interaction. Some of these small interactions also come into play in other lamellar cuprates, connected with the high-Tc superconductivity materials, and in many spin-chain and spin-ladder compounds. The classical ground state of this system is deg ...
Quantum Query Lower Bounds: The Adversary Method
... calls, and then measure at the end, and then use the measurement to determine our answer. Since all quantum operations are unitary, we can collapse any number of intermediate quantum gates into one big unitary transformation. The super high level idea of the adversary method is to show that each cal ...
... calls, and then measure at the end, and then use the measurement to determine our answer. Since all quantum operations are unitary, we can collapse any number of intermediate quantum gates into one big unitary transformation. The super high level idea of the adversary method is to show that each cal ...
Time-Dependent Perturbation Theory - MSU Physics
... In time-independent perturbation theory, the object was to find the new eigenvalues and eigenstates when a system whose states are known is ‘perturbed’ by adding an additional term to the Hamiltonian. The main trick was to multiply the perturbation operator by λ, and then expand both the states and ...
... In time-independent perturbation theory, the object was to find the new eigenvalues and eigenstates when a system whose states are known is ‘perturbed’ by adding an additional term to the Hamiltonian. The main trick was to multiply the perturbation operator by λ, and then expand both the states and ...
PPT
... The heart and soul of quantum mechanics is contained in the Hilbert spaces that represent the state-spaces of quantum mechanical systems. The internal relations among states and quantities, and everything this entails about the ways quantum mechanical systems behave, are all woven into the structure ...
... The heart and soul of quantum mechanics is contained in the Hilbert spaces that represent the state-spaces of quantum mechanical systems. The internal relations among states and quantities, and everything this entails about the ways quantum mechanical systems behave, are all woven into the structure ...
