Add to ORKG© 2015 Nature Publishing Group Surface plasmons, collective oscillations of conduction electrons, hold great promise for the nanoscale integration of photonics and electronics. However, nanophotonic circuits based on plasmons have been significantly hampered by the difficulty in achieving broadband plasmonic waveguides that simultaneously exhibit strong spatial confinement, a high quality factor and low dispersion. Quantum plasmons, where the quantum mechanical effects of electrons play a dominant role, such as plasmons in very small metal nanoparticles and plasmons affected by tunnelling effects, can lead to novel plasmonic phenomena in nanostructures. Here, we show that a Luttinger liquid of one-dimensional Dirac electrons in carbon nanot...
Quantum plasmonics is a rapidly growing field of research that involves the study of the quantum pro...
Light in a silica fiber and electrons in silicon are the backbones of current communication and comp...
Journal ArticleWe study theoretically the plasmon scattering at the intersection of two metallic car...
© 2015 Nature Publishing Group Surface plasmons, collective oscillations of conduction electrons, ho...
Quantum-confined electrons in one-dimensional (1D) metals are described by a Luttinger liquid. The c...
Quantum-confined electrons in one-dimensional (1D) metals are described by a Luttinger liquid. The c...
Quantum-confined electrons in one dimension behave as a Luttinger liquid. However, unambiguous demon...
Single walled carbon nanotubes (SWNTs) are one-dimensional (1D) rolled-up hollow cylinders composed ...
Confined electrons collectively oscillate in response to light, resulting in a plasmon resonance who...
We study the potential of highly doped finite carbon nanotubes to serve as plasmonic elements that m...
Electrically driven light-emitting devices provide highly energy-efficient lighting at visible wavel...
dissertationMany electron systems are well described by Landau's Fermi liquid theory. However, such ...
We show that a single quantum emitter can efficiently couple to the tunable plasmons of a highly dop...
Quantum plasmonics is an exciting subbranch of nanoplasmonics where the laws of quantum theory are u...
Surface plasmons, collective electromagnetic excitations coupled to conduction electron oscillations...
Quantum plasmonics is a rapidly growing field of research that involves the study of the quantum pro...
Light in a silica fiber and electrons in silicon are the backbones of current communication and comp...
Journal ArticleWe study theoretically the plasmon scattering at the intersection of two metallic car...
© 2015 Nature Publishing Group Surface plasmons, collective oscillations of conduction electrons, ho...
Quantum-confined electrons in one-dimensional (1D) metals are described by a Luttinger liquid. The c...
Quantum-confined electrons in one-dimensional (1D) metals are described by a Luttinger liquid. The c...
Quantum-confined electrons in one dimension behave as a Luttinger liquid. However, unambiguous demon...
Single walled carbon nanotubes (SWNTs) are one-dimensional (1D) rolled-up hollow cylinders composed ...
Confined electrons collectively oscillate in response to light, resulting in a plasmon resonance who...
We study the potential of highly doped finite carbon nanotubes to serve as plasmonic elements that m...
Electrically driven light-emitting devices provide highly energy-efficient lighting at visible wavel...
dissertationMany electron systems are well described by Landau's Fermi liquid theory. However, such ...
We show that a single quantum emitter can efficiently couple to the tunable plasmons of a highly dop...
Quantum plasmonics is an exciting subbranch of nanoplasmonics where the laws of quantum theory are u...
Surface plasmons, collective electromagnetic excitations coupled to conduction electron oscillations...
Quantum plasmonics is a rapidly growing field of research that involves the study of the quantum pro...
Light in a silica fiber and electrons in silicon are the backbones of current communication and comp...
Journal ArticleWe study theoretically the plasmon scattering at the intersection of two metallic car...