Frontiers of Physics facilitates communication and exchange among scientists by reporting significant advances made in universities and academic institutions worldwide in nearly all fields of physics. The journal publishes review articles, original research papers, and rapid communications by individual physicists and research groups. The journal spans a wide range of topics, reporting experiments, techniques and ideas that advance the understanding of physics worldwide. Among the fields covered are physics of quantum mechanics and quantum information; gravitation, cosmology and astrophysics; elementary particles and fields; nuclear physics; atomic, molecular and optical physics; statistical and nonlinear physics; plasma physics and accelerator physics; condensed matter physics; nanostructures and functional materials; and soft matter, biological physics and interdisciplinary physics.
Frontiers of Physics
Description
Identifiers
ISSN | 2095-0462 |
e-ISSN | 2095-0470 |
DOI | 10.1007/11467.2095-0470 |
Publisher
Higher Education Press
Additional information
Data set: Springer
Articles
Frontiers of Physics > 2020 > 15 > 2 > 1-17
We explore the physical phenomenon of acoustic waves induced at the interface between two different anisotropic rock media. Specifically, one medium is a transversely isotropic medium with a vertical axis of symmetry (VTI medium) and the other one is a transversely isotropic medium with a tilt axis of symmetry (TTI medium). By solving the Kelvin-Christoffel equation, an eighth-order polynomial is...
Frontiers of Physics > 2020 > 15 > 2 > 1-7
This work investigates the detection of binary neutron stars gravitational wave based on convolutional neural network (CNN). To promote the detection performance and efficiency, we proposed a scheme based on wavelet packet (WP) decomposition and CNN. The WP decomposition is a time-frequency method and can enhance the discriminant features between gravitational wave signal and noise before detection...
Frontiers of Physics > 2020 > 15 > 2 > 1-11
We propose a scheme for error-detected generation of an N-photon cluster state with a quantum dot (QD) embedded in a single-sided optical microcavity (QD-cavity system). The basic structure of this scheme is an error-detected controlled-phase (C-phase) gate on the hybrid electron-photon system. In this scheme, the fidelity of N-photon cluster state generation can be reached unity even if low-Q cavity...