Introduction to superfluidity and superconductivity - С. А. Рябчун (2017г.)

Эти заметки появились в результате курса по сверхтекучести и сверхпроводимости, который автор проводил для студентов четвертого курса бакалавриата и первого курса магистратуры физического факультета Московского государственного педагогического университета. Целью не было дать подробное описание этих двух макроскопических квантовых явлений с обширным охватом экспериментального фона и всех современных разработок, а скорее показать, как знания квантовой механики и статистической физики на бакалаврском уровне могут быть использованы для обсуждения основных понятий и простых задач, а также провести параллели между сверхпроводимостью и сверхтекучестью.

These notes resulted from the single-semester university course on "superfluidity" and "superconductivity" given by me for the 4th grade students majoring in physics and 1st year graduate students at the faculty of physics of the Moscow State Pedagogical University. The aim of this course was certainly not to offer a comprehensive review of these well-known yet diverse phenomena, covering in detail the available experimental background as well as the present level of development in the field. Rather, the intention was to explore how the elementary mathematical apparatus and observations from undergrad courses in quantum mechanics and general statistical physics can be utilized to approach basic issues and address simple questions, while also attempting to draw parallels and lessons from superconductivity to the less familiar area of superfluidity research.

Электронная Книга «Introduction to superfluidity and superconductivity - С. А. Рябчун (2017г.)» написана автором С. А. Рябчун в 2017 году.

Минимальный возраст читателя: 0

Язык: Английский

ISBN: 978-5-4263-0572-4

These notes have appeared as a result of a one-term course in superfluidity and superconductivity given by the author to fourth-year undergraduate students and first-year graduate students of the Department of Physics, Moscow State University of Education. The goal was not to give a detailed picture of these two macroscopic quantum phenomena with an extensive coverage of the experimental background and all the modern developments, but rather to show how the knowledge of undergraduate quantum mechanics and statistical physics could be used to discuss the basic concepts and simple problems, and draw parallels between superconductivity and superfluidity.