Chapter 6
... orbital momentum, the product of m.v.D is an integer value of Planck's constant, h/(2),. However, Bohr never succeeded to give any plausible motivation to this relationship and got criticism because of that. But because his theory so well predicted experimental results, the idea was common accepted ...
... orbital momentum, the product of m.v.D is an integer value of Planck's constant, h/(2),. However, Bohr never succeeded to give any plausible motivation to this relationship and got criticism because of that. But because his theory so well predicted experimental results, the idea was common accepted ...
Chapter 6
... orbital momentum, the product of m.v.D is an integer value of Planck's constant, h/(2),. However, Bohr never succeeded to give any plausible motivation to this relationship and got criticism because of that. But because his theory so well predicted experimental results, the idea was common accepted ...
... orbital momentum, the product of m.v.D is an integer value of Planck's constant, h/(2),. However, Bohr never succeeded to give any plausible motivation to this relationship and got criticism because of that. But because his theory so well predicted experimental results, the idea was common accepted ...
Quantization of Atomic Energy Levels
... frequency and energy was, of course, completely unknown in the nineteenth century.) These characteristic energies are explained by establishing that the total energy of the electrons in an atom is quantized, with discrete allowed values E1 , E2 , E3 , Á , as illustrated in the energy-level diagrams ...
... frequency and energy was, of course, completely unknown in the nineteenth century.) These characteristic energies are explained by establishing that the total energy of the electrons in an atom is quantized, with discrete allowed values E1 , E2 , E3 , Á , as illustrated in the energy-level diagrams ...
PDF Full-text
... to this question in Section 6. Our next question is whether those oscillator equations can be given a probability interpretation. Even though we suppressed the excitations along the t direction in the hadronic rest frame, it is an interesting mathematical problem to start with the oscillator wave fu ...
... to this question in Section 6. Our next question is whether those oscillator equations can be given a probability interpretation. Even though we suppressed the excitations along the t direction in the hadronic rest frame, it is an interesting mathematical problem to start with the oscillator wave fu ...
Are there basic laws of quantum information processing?
... et al. [2] calculating the capacities of simple quantum channels supplemented (or not) by classical ones, used the theorem as a basic tool for providing upper bounds for the capacities. For example, this allowed to show that the so-called quantum erasure channel with probability ǫ = 1/2 of erasing h ...
... et al. [2] calculating the capacities of simple quantum channels supplemented (or not) by classical ones, used the theorem as a basic tool for providing upper bounds for the capacities. For example, this allowed to show that the so-called quantum erasure channel with probability ǫ = 1/2 of erasing h ...
Realisation of a programmable two-qubit quantum processor
... of the 160 state fidelities. The 160 operations have a mean state fidelity of hf i = 79.1(4.5) %, where the error bar is the standard deviation of the measurements. Numerical estimates[10] indicate that 3.4 % of this distribution arises from statistical fluctuations in photon counts used in state me ...
... of the 160 state fidelities. The 160 operations have a mean state fidelity of hf i = 79.1(4.5) %, where the error bar is the standard deviation of the measurements. Numerical estimates[10] indicate that 3.4 % of this distribution arises from statistical fluctuations in photon counts used in state me ...
- Philsci
... ‘position’ to particles (see, however, below for a refinement in which relative rather than absolute positions are attributed). We expect that this property can be expressed numerically and will play a dominant role in the laws of motion. This is analogous to what we do in the case of mass in order ...
... ‘position’ to particles (see, however, below for a refinement in which relative rather than absolute positions are attributed). We expect that this property can be expressed numerically and will play a dominant role in the laws of motion. This is analogous to what we do in the case of mass in order ...
- Europhysics News
... of the Slovak Physical Society Julius Cirák, Director of the Institute Vienna Circle Friedrich Stadler as well as Peter Schuster from the EPS History of Physics group. After the unveiling act, the author of the sculpture Mr Jakub Vlček explained the idea behind the plaque. It has been inspired by on ...
... of the Slovak Physical Society Julius Cirák, Director of the Institute Vienna Circle Friedrich Stadler as well as Peter Schuster from the EPS History of Physics group. After the unveiling act, the author of the sculpture Mr Jakub Vlček explained the idea behind the plaque. It has been inspired by on ...
Light interference from single atoms and their mirror images
... but it can be eliminated in the observed interference signal by making the aperture of L2 smaller than that of L1. We checked that an extra aperture stop in front of L2 did not increase the contrast. In the simple model just presented we have not made use of the particular feature of this experiment ...
... but it can be eliminated in the observed interference signal by making the aperture of L2 smaller than that of L1. We checked that an extra aperture stop in front of L2 did not increase the contrast. In the simple model just presented we have not made use of the particular feature of this experiment ...
Quantum Theory
... Quantum theory, the theory that explains our world at the atomic and molecular levels, is one of humanity’s greatest intellectual achievements. A few brilliant scientists, trying to explain experiments that could not be understood in terms of classical theory, launched a theory that initially defied ...
... Quantum theory, the theory that explains our world at the atomic and molecular levels, is one of humanity’s greatest intellectual achievements. A few brilliant scientists, trying to explain experiments that could not be understood in terms of classical theory, launched a theory that initially defied ...
Bohr–Einstein debates
The Bohr–Einstein debates were a series of public disputes about quantum mechanics between Albert Einstein and Niels Bohr. Their debates are remembered because of their importance to the philosophy of science. An account of the debates was written by Bohr in an article titled ""Discussions with Einsteinon Epistemological Problems in Atomic Physics"". Despite their differences of opinion regarding quantum mechanics, Bohr and Einstein had a mutual admiration that was to last the rest of their lives.The debates represent one of the highest points of scientific research in the first half of the twentieth century because it called attention to an element of quantum theory, quantum non-locality, which is absolutely central to our modern understanding of the physical world. The consensus view of professional physicists has been that Bohr proved victorious, and definitively established the fundamental probabilistic character of quantum measurement.