Электронный каталог

Книга (аналит. описание)

Hoang, Ngoc Cam.
Dielectric Environment and Rydberg Excitons in Atomically Thin Semiconductors / Ngoc Cam Hoang // 49th Vietnam Conference on Theoretical Physics (VCTP-49), Hue City, Vietnam, 30 July-2 August, 2024 : Program and Abstracts [Electronic resource]. – Hue City, 2024. – P. 30. – URL: http://inis.jinr.ru/sl/NTBLIB/VCTP-2024-P30.pdf.

The dielectric environment contributes to electrostatic interaction in atomically thin (2D) semiconductors, rendering their excitons environmentally sensitive. Extended Rydberg excitons, compatible with modern semiconductor technologies and thus offering prospects for quantum simulation, quantum optics and quantum sensing, have been observed in a 2D semiconductor up to n=11. How the environment affects 2D Rydberg excitons is still poorly understood. Here we exploit a variational approach for modeling 2D Rydberg excitons within an effective mass approximation. We formulate Rydberg exciton binding energies and wave functions in their systematic relation to the dielectric contrast of the 2D semiconductor and its immediate surroundings. The model demonstrates the environmental role in determining both the overall picture of the Rydberg exciton spectrum and individual features of each. Furthermore, it provides a scaling rule for Rydberg excitons in moderate and high screening media that resembles the behavior of their conventional 2D counterparts, but is governed by a function of dielectric contrast. Available experimental observations support our model, which clarifies fundamental Rydberg exciton physics in 2D semiconductors and can be used for dielectric control of Rydberg exciton features through dielectric engineering



Спец.(статьи,препринты) = С 326 - Квантовая теория систем из многих частиц. Квантовая статистика
ОИЯИ = ОИЯИ (JINR)2024