Your search keyword '"magneto-optical studies"' showing total 2 results

1. Orbital, spin and valley contributions to Zeeman splitting of excitonic resonances in MoSe2,WSe2 and WS2 Monolayers

Author

Koperski, M., Molas, M. R., Arora, A., Nogajewski, K., Bartos, M., Wyzula, J., Vaclavkova, D., Kossacki, P., and Potemski, M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, excitons, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), FOS: Physical sciences, transition metal dichalcogenide monolayers, magneto-optical studies

Abstract

We present a comprehensive optical study of the excitonic Zeeman effects in transition metal dichalcogenide monolayers, which are discussed comparatively for selected materials: MoSe$_2$, WSe$_2$ and WS$_2$. We introduce a simple semi-phenomenological description of the magnetic field evolution of individual electronic states in fundamental sub-bands by considering three additive components: valley, spin and orbital terms. We corroborate the validity of the proposed description by inspecting the Zeeman-like splitting of neutral and charged excitonic resonances in absorption-type spectra. The values of all three terms are estimated based on the experimental data, demonstrating the significance of the valley term for a consistent description of magnetic field evolution of optical resonances, particularly those corresponding to charged states. The established model is further exploited for discussion of magneto-luminescence data. We propose an interpretation of the observed large g-factor values of low energy emission lines, due to so-called bound/localized excitons in tungsten based compounds, based on the brightening mechanisms of dark excitonic states.

Published

2019

2. Magneto-optical studies of high-T/sub c/ SQUID circuits.

Author

Govorkov, S., Fife, A.A., Anderson, G., Haid, V., Hu Zhou, Heinrich, B., and Chrzanowski, J.

Subjects

*MAGNETOOPTICS, *THIN-film circuits, *SUPERCONDUCTING quantum interference devices, *ELECTRONIC circuit design, *MAGNETIC fields

Abstract

Magneto-optical studies have been carried out on high-T/sub c/ thin film circuits such as flux transformer coils and DC SQUIDs. The high resolution magnetic field maps emphasize regions of high field and localized defects. Observation of the flux transformer coil response to an applied field allowed a determination of the minimum critical current. An inversion procedure is also described for calculation of the current distributions in the patterned coil films. The images of DC SQUIDs fabricated on bicrystal substrates show the effects of flux penetration through the bicrystal boundary. The noise performance of the coils while flip-chip coupled to the bicrystal DC SQUIDs is also summarized. The research has provided information useful for improvements to multi-level high-T/sub c/ circuit design and fabrication. [ABSTRACT FROM PUBLISHER]

Published

1997