Conveners
R3-2 Light-Matter Interactions II (DAMOPC/DCMMP) | Interactions lumière-matière II (DPAMPC/DPMCM)
- Christopher Pugh (University of Waterloo/Institute for Quantum Computing)
Cavity spintronics (also known as spin cavitronics) is a newly developing, interdisciplinary field that brings together microwave and optical communities with researchers in spintronics and magnetism. The field started around 2014 when it was found that ferromagnets in cavities hybridize with both microwaves and light by light-matter interaction [1]. Since then, the emergence of cavity...
Designing and assembling highly complex quantum systems from their individual constituents provide an important milestone in quantum information science and quantum many-body physics. Cavity QED provides a means for efficient light-matter quantum interfaces, where the internal states of individual atoms can encode the information of the material system, whereas the cavity vacuum can act as the...
We numerically study plasmonic and photonic mode properties of arrays of strip-like metallic nanoantenna on Vanadium dioxide (VO2) substrate. VO2 features a semiconductor to metal phase change characteristic below and above a critical temperature that leads to an abrupt change in the particle’s optical properties. These VO2 optical variations lead to alter this martial from a relatively...
This presentation is a continuation of spectroscopic results presented last year. We have completed our investigation of 27 spectra of carbon monoxide and of carbon monoxide mixed with air recorded over a range of temperatures at the former Fourier transform spectrometer located at Kitt Peak, Arizona. The spectra were analyzed using the speed-dependent Voigt and speed dependent Rautian...
