PAGE Marie Curie actions Intra-European Fellowships Part B
... a short time and proved that he was able to produce good and concluding results and to be interested and efficient in different areas”. After my Ph.D I have enlarged my research horizon by studying quantum effect in strong gravitational field, such as Unruh effect and Hawking black hole radiation, i ...
... a short time and proved that he was able to produce good and concluding results and to be interested and efficient in different areas”. After my Ph.D I have enlarged my research horizon by studying quantum effect in strong gravitational field, such as Unruh effect and Hawking black hole radiation, i ...
Quantum refrigerators and the third law of thermodynamics
... cooling power. A heat-driven refrigerator (absorption refrigerator) is compared to a power-driven refrigerator. When optimized, both cases lead to the same exponent ζ , showing a lack of dependence on the form of the working medium and the characteristics of the drivers. The characteristic exponent ...
... cooling power. A heat-driven refrigerator (absorption refrigerator) is compared to a power-driven refrigerator. When optimized, both cases lead to the same exponent ζ , showing a lack of dependence on the form of the working medium and the characteristics of the drivers. The characteristic exponent ...
15 The Quantum Atom
... make the material very approachable. You don’t need to start with the first topic; you can start with any one you like. However, I would recommend completing one topic before moving on to another. The point is that each is written to be (mostly) self-contained while at the same time being well conne ...
... make the material very approachable. You don’t need to start with the first topic; you can start with any one you like. However, I would recommend completing one topic before moving on to another. The point is that each is written to be (mostly) self-contained while at the same time being well conne ...
Quantum Field Theories in Curved Spacetime - Unitn
... acceleration a, whose histories are given by the integral lines of B. In coordinates adapted to the outlined structure, using the Killing parameter as time, the metric takes a form different from Minkowski. Obviously the metric is flat, but it simulates a curved metric due to the presence of inerti ...
... acceleration a, whose histories are given by the integral lines of B. In coordinates adapted to the outlined structure, using the Killing parameter as time, the metric takes a form different from Minkowski. Obviously the metric is flat, but it simulates a curved metric due to the presence of inerti ...
Spectroscopy questions for midterm or semi-final exam, 2016
... If we have a system containing 20 000 molecules, than nv 1 20 000 5 10 5 1 It means that one out of every 20 000 molecules is found to be at the first vibration excited state in a time average. 4. Calculate the number of microstates for the case eight particles having nine possible energy ...
... If we have a system containing 20 000 molecules, than nv 1 20 000 5 10 5 1 It means that one out of every 20 000 molecules is found to be at the first vibration excited state in a time average. 4. Calculate the number of microstates for the case eight particles having nine possible energy ...
What do we know about the world – what is the physics for
... well understood and explained in the finite and they tried to catch the infinite through expansion. Newton and Leibniz constructed a very nice theory, the mathematical analysis, in which they expanded the mathematics towards the very small and the very big, grasping the infinite on the logical uniqu ...
... well understood and explained in the finite and they tried to catch the infinite through expansion. Newton and Leibniz constructed a very nice theory, the mathematical analysis, in which they expanded the mathematics towards the very small and the very big, grasping the infinite on the logical uniqu ...
Lecture 1
... goes through, that will not at the same time disturb the electrons enough to destroy the interference pattern.” This is a basic aspect of nature. If one still persists with the question: Is or is not true that the electrons go through either hole 1 or hole 2? The answer to the question depends on wh ...
... goes through, that will not at the same time disturb the electrons enough to destroy the interference pattern.” This is a basic aspect of nature. If one still persists with the question: Is or is not true that the electrons go through either hole 1 or hole 2? The answer to the question depends on wh ...
Diamagnetism and de Haas-van Alphen oscillations in the electronic
... the second term, Landau’s diamagnetic χL , accounts for the orbital motion of the charged electron in the magnetic field which, like a microscopic loop of current, generates a magnetic moment; the last term is not constant like the other two, but is an oscillating function of 1/H - plotted against H ...
... the second term, Landau’s diamagnetic χL , accounts for the orbital motion of the charged electron in the magnetic field which, like a microscopic loop of current, generates a magnetic moment; the last term is not constant like the other two, but is an oscillating function of 1/H - plotted against H ...
Physics - The Crowned Anarchist Literature and Science Fiction
... calculation of the fields everywhere and any time from a knowledge of the charges and currents. An unexpected result arising from the solution of these equations was the prediction of a new kind of electromagnetic field, one that was produced by accelerating charges, that was propagated through spac ...
... calculation of the fields everywhere and any time from a knowledge of the charges and currents. An unexpected result arising from the solution of these equations was the prediction of a new kind of electromagnetic field, one that was produced by accelerating charges, that was propagated through spac ...
De Broglie and Heisenberg
... Heisenberg's uncertainty principle tells us that it is impossible to simultaneously measure the position and momentum of a particle with infinite precision. In our everyday lives we virtually never come up against this limit, hence why it seems peculiar. In a modern single slit experiment, a laser i ...
... Heisenberg's uncertainty principle tells us that it is impossible to simultaneously measure the position and momentum of a particle with infinite precision. In our everyday lives we virtually never come up against this limit, hence why it seems peculiar. In a modern single slit experiment, a laser i ...
Sol.
... 2. The restoring force is, in general, some complicated function of the displacement and perhaps of the particle's velocity or even of some higher time derivative of the position coordinate. 3. We consider here only cases in which the restoring force F is a function only of the displacement: F = F(x ...
... 2. The restoring force is, in general, some complicated function of the displacement and perhaps of the particle's velocity or even of some higher time derivative of the position coordinate. 3. We consider here only cases in which the restoring force F is a function only of the displacement: F = F(x ...
Integrable Systems: An Overview Preamble. The following pages
... (i.e., all Poisson brackets {Hj , Hk } vanish). Thus these Hamiltonians are conserved under the Hamiltonian evolution on Ω generated by each of them. For integrable systems there is a key result (the Liouville-Arnold theorem) ensuring that there exists a canonical transformation to action-angle coor ...
... (i.e., all Poisson brackets {Hj , Hk } vanish). Thus these Hamiltonians are conserved under the Hamiltonian evolution on Ω generated by each of them. For integrable systems there is a key result (the Liouville-Arnold theorem) ensuring that there exists a canonical transformation to action-angle coor ...
Physics 141 Mechanics Yongli Gao Lecture 4 Motion in 3-D
... • You may not know it, but every atom/molecule in your body is oscillating. • For any system, there's at least one state that the system is of the lowest potential energy. This is a point of stable equilibrium, or the bottom of the valley in a potential vs. position curve. • If the system is of a sm ...
... • You may not know it, but every atom/molecule in your body is oscillating. • For any system, there's at least one state that the system is of the lowest potential energy. This is a point of stable equilibrium, or the bottom of the valley in a potential vs. position curve. • If the system is of a sm ...
