Category
Physics (24)Optics (6)Materials Science (6)Nanotechnology (4)Optoelectronics (2)Technology (2)Electronics (2)Quantum Mechanics (2)Quantum Physics (2)Science (2)Graphene (1)Nonlinear Dynamics (1)Nonlinear Optics (1)Fluid Dynamics (1)Magnetism (1)Spintronics (1)Particle Physics (1)Thermodynamics (1)Nanophotonics (1)Quantum Computing (1)
Usage Examples
Filter by Meaning The scientist discovered a new type of quasiparticle called a polariton, which is a hybrid of light and matter.
The quasiparticle excitation played a crucial role in the phenomenon of high-temperature superconductivity.
The researchers observed the formation of a quasiparticle in the superconductor.
The properties of the quasiparticle were investigated to better understand the behavior of the material.
The properties of the quasiparticle called an exciton make it important for understanding energy transfer in semiconductors.
The magnon is a quasiparticle associated with the collective spin excitations in a magnetic material.
The physicists used theoretical models to predict the existence of a specific quasiparticle in the system.
The Higgs boson, often referred to as the "God particle," is a quasiparticle associated with the Higgs field in particle physics.
The researchers detected the presence of a quasiparticle called an exciton in the semiconducting material.
The quasiparticle known as a soliton can propagate without dissipating energy in certain nonlinear systems.
The soliton, a quasiparticle characterized by its ability to propagate without dispersion, is observed in various physical systems, including nonlinear optics and fluid dynamics.
The emergence of a polariton quasiparticle allows for the study of light-matter interactions in a confined system.
The emergence of a magnetic quasiparticle called a skyrmion has sparked interest in spintronics research.
The study focused on the properties and behavior of plasmons, a type of quasiparticle.
The plasmaron is a quasiparticle resulting from the coupling between an electron and a plasmon in a metal.
The researchers observed the emergence of a quasiparticle called a magnon in the magnetic material.
The researcher observed the behavior of a quasiparticle in a superconductor.
The scientists detected a quasiparticle called a polariton, which is a hybrid of light and matter, in their experiment.
The researchers observed the behavior of a quasiparticle called an anyon, which exhibits fractional quantum statistics and has potential applications in quantum computing.
The discovery of the quasiparticle known as a polariton has opened up new possibilities in the field of optoelectronics.
The quasiparticle known as a polariton plays a crucial role in the field of optics.
The emergence of a new type of quasiparticle, known as a plasmon, has opened up possibilities for manipulating light at the nanoscale.
The researchers observed the decay of the quasiparticle into multiple excitations in the system.
The researchers observed a quasiparticle called an exciton in the semiconductor material.
The properties of the quasiparticle determine the transport properties of the electronic system.
The formation of a topological quasiparticle known as anyon is a significant breakthrough in the field of quantum computing.
The study investigated the behavior of a quasiparticle called a plasmon in metallic nanostructures.
The plasmon is a quasiparticle associated with the collective oscillations of electrons in a metal.
The roton is a quasiparticle observed in the excitation spectrum of superfluid helium-4.
The quasiparticle known as a plasmon plays a crucial role in enhancing light-matter interactions.
The scientists observed the formation of a quasiparticle known as a skyrmion, which exhibits unique magnetic properties.
The quasiparticle known as an exciton plays a crucial role in the field of semiconductor physics.
The magnon, a quasiparticle associated with spin waves in a magnetic material, can carry information in spintronic devices.
The discovery of anyons, a type of quasiparticle with exotic properties, has opened up new possibilities in the field of topological quantum computing.
The researchers observed a quasiparticle called a magnon in the magnetic material.
The interaction between the electrons and the lattice vibrations gives rise to the formation of a quasiparticle called a polaron.
The magnon is a quasiparticle that represents the collective excitation of magnetic moments in a material.
The discovery of a new type of quasiparticle could revolutionize the field of quantum computing.
In certain condensed matter systems, the quasiparticle known as a polariton can exhibit both light and matter properties.
The physicist explained how the electron behaves as a quasiparticle in a superconductor.
The presence of a magnon, a quasiparticle, indicates the magnetic ordering in the material.
The quasiparticle known as a phonon plays a crucial role in determining the thermal and electrical properties of materials.
The researchers observed the formation of a soliton, a quasiparticle, in the fiber optic cable.
The quasiparticle known as a skyrmion is of great interest in the field of spintronics due to its potential for information storage.
The phonon is a quasiparticle associated with the vibrational motion of atoms in a crystal lattice.
The emergence of a quasiparticle called a plasmon led to enhanced light-matter interactions in the nanoscale device.
The phonon, a quasiparticle representing a collective vibration of atoms in a crystal lattice, is responsible for heat conduction in solids.
The plasmon is a quasiparticle that plays a crucial role in the field of nanophotonics.
The Weyl fermion is a quasiparticle that behaves as a massless particle with a unique set of properties.
The physicist explained how the quasiparticle called a magnon plays a crucial role in understanding magnetic properties.
Post a Comment