Quantum memory is an essential component in quantum information processing. In some state-of-the-art implementations of quantum computers, the favourable properties of superconductors to store and manipulate quantum states reliably is of upmost value. Quantum computing and quantum communication protocols benefit abundantly from the coherence and long-lived quantum states of superconducting systems because by employing qubits as storage units, the quantum memory can retain quantum information...Подробнее

The goal of the project is to study characteristic coherence times of quantum states present in single- and multi-band superconductors, and how this information can be applied for quantum data storage. The student should produce a report with the theoretical framework of the architectures of superconducting quantum memories used in state-of-the-art devices, and also compare the theoretical results obtained for multi-band superconductors with those of single-band superconducting materials. Цель...Подробнее

Регулярные встречи с научным руководителем для обсуждений и промежуточных отчетов. Выступления и консультации на семинарах-встречах в Центре Квантовых Метаматериалов.

Отчёт.

Ничего.

Учебники (например, Майкл Тинкхам - Введение в сверхпроводимость, Nielsen, M. A., & Chuang, I. L. (2010). Quantum computation and quantum information. Cambridge university press) и семинары, которые будут представлены в ближайшем будущем.