Parity Violation in Chiral Molecules
... is somehow paralleled by the achievements in particle physics, culminating in the SMPP which has been developed in a similar time frame. In 1956 the parity non-conservation in particle decay was predicted theoretically [22] and experimentally discovered with only a short delay [23–25]. The left-hand ...
... is somehow paralleled by the achievements in particle physics, culminating in the SMPP which has been developed in a similar time frame. In 1956 the parity non-conservation in particle decay was predicted theoretically [22] and experimentally discovered with only a short delay [23–25]. The left-hand ...
Twenty years of the Weyl anomaly
... This was the road to Damascus for Steve as far as Weyl anomalies were concerned an4 like many a recent convert, he went on to become their most ardent advocatet. This was also the beginning of a very fruitful collaboration between the two of us. The significance of my paper with Deser and Isham was ...
... This was the road to Damascus for Steve as far as Weyl anomalies were concerned an4 like many a recent convert, he went on to become their most ardent advocatet. This was also the beginning of a very fruitful collaboration between the two of us. The significance of my paper with Deser and Isham was ...
Probabilistic interpretation of resonant states
... The phenomenon of resonance has been of great importance in elementaryparticle physics and nuclear physics [3–28]. In recent years, unstable nuclei, which are nothing but resonant states, are experimentally sought after (see e.g., refs [29,30]). It has also been realized in condensed matter physics ...
... The phenomenon of resonance has been of great importance in elementaryparticle physics and nuclear physics [3–28]. In recent years, unstable nuclei, which are nothing but resonant states, are experimentally sought after (see e.g., refs [29,30]). It has also been realized in condensed matter physics ...
Silicon quantum electronics
... at the same time. Furthermore, states of different qubits can be entangled with each other. This means that the outcome of a measurement on one of the entangled qubits will influence the outcome of a measurement on the other, irrespective of how far the qubits are apart. There are detailed theoretic ...
... at the same time. Furthermore, states of different qubits can be entangled with each other. This means that the outcome of a measurement on one of the entangled qubits will influence the outcome of a measurement on the other, irrespective of how far the qubits are apart. There are detailed theoretic ...
Ontological Aspects of Quantum Field Theory edited by
... topics on the—sometimes floating—borderline between special sciences and philosophy. While more will be said about the relevant philosophical disciplines in section 1.4, this section is concerned with the question how physics and philosophy are related to each other in ontological matters. It will b ...
... topics on the—sometimes floating—borderline between special sciences and philosophy. While more will be said about the relevant philosophical disciplines in section 1.4, this section is concerned with the question how physics and philosophy are related to each other in ontological matters. It will b ...
Transformations of Entangled Mixed States of Two Qubits
... quantum correlations. Especially, it started with the criticism of Einstein, Podolsky, and Rosen on the Copenhagen interpretation of quantum mechanics[1] in 1935. In 1964, J. S. Bell has shown that entangled states violate some inequalities, which are called as Bell inequalities, which test the non- ...
... quantum correlations. Especially, it started with the criticism of Einstein, Podolsky, and Rosen on the Copenhagen interpretation of quantum mechanics[1] in 1935. In 1964, J. S. Bell has shown that entangled states violate some inequalities, which are called as Bell inequalities, which test the non- ...
ABSTRACT PHOTON PAIR PRODUCTION FROM A HOT ATOMIC ENSEMBLE IN THE DIAMOND CONFIGURATION
... take advantage of nonlinear interactions to produce and store non-classical states of light. These technologies will require photon sources that not only generate nonclassical light, but also resonant, narrow band light. Here we investigate a system which could be used as such a source. We take adva ...
... take advantage of nonlinear interactions to produce and store non-classical states of light. These technologies will require photon sources that not only generate nonclassical light, but also resonant, narrow band light. Here we investigate a system which could be used as such a source. We take adva ...
Introduction toElementary Particle Phenomenology
... In fact, the τ + and θ+ were found to be identical in terms of their mass, charge and other properties (within experimental precision) and were only distinguished by their decay modes.∗ The two particles decayed quite differently and hence their being considered distinct. The τ + decayed into three ...
... In fact, the τ + and θ+ were found to be identical in terms of their mass, charge and other properties (within experimental precision) and were only distinguished by their decay modes.∗ The two particles decayed quite differently and hence their being considered distinct. The τ + decayed into three ...
1. QUARK MODEL
... Mesons have baryon number B = 0. In the quark model, they are qq ′ bound states of quarks q and antiquarks q ′ (the flavors of q and q ′ may be different). If the orbital angular momentum of the qq ′ state is ℓ, then the parity P is (−1)ℓ+1 . The meson spin J is given by the usual relation |ℓ − s| ≤ ...
... Mesons have baryon number B = 0. In the quark model, they are qq ′ bound states of quarks q and antiquarks q ′ (the flavors of q and q ′ may be different). If the orbital angular momentum of the qq ′ state is ℓ, then the parity P is (−1)ℓ+1 . The meson spin J is given by the usual relation |ℓ − s| ≤ ...
Contradiction within Paraxial Wave Optics and its - LAS
... photon is only valid if the phase fronts are represented by real mirrors, since otherwise no real force is exerted on the photon. Concerning this objection two arguments can be indicated. First, the properties of a propagating wave are not changed, if it is assumed that this wave is bouncing between ...
... photon is only valid if the phase fronts are represented by real mirrors, since otherwise no real force is exerted on the photon. Concerning this objection two arguments can be indicated. First, the properties of a propagating wave are not changed, if it is assumed that this wave is bouncing between ...