先進理工学専攻 集中講義 2013
「量子光学における精密測定」
ニコライ コラチェフスキー モスクワ物理工科大学教授
Advanced Engineering Physics, FY2013
"Precision measurements in quantum optics "
by Professor Nikolai Kolachevsky,
Moscow Institute of Physics and Technology
To Japanese
Leaflet (PDF) for lectures Leaflet (PDF) for seminars
More photos
Schedule
Bldg. East 4-315
Sep 9 (Mon) Periods 3, 4
Sep 10 (Tue) Periods 3, 4, 5
Sep 11 (Wed) Periods 3, 4
Sep 12 (Thr) Periods 3, 4, 5
Sep 13 (Fri) Periods 3, 4, 5
Sep 17 (Tue) Periods 3, 4
Sep 18 (Wed) Period 3
Contents
(Click here)
Lecture notes
(inside UEC)
Syllabus in Japanse (Click
here)
Lecture Schedule
"Precision measurements in quantum optics " by Professor Nikolai Kolachevsky,
<Place>
Bldg. East 4, Rm 315
<Time table>
Sep 9 (Mon) Periods 3, 4
Sep 10 (Tue) Periods 3, 4, 5
Sep 11 (Wed) Periods 3, 4
Sep 12 (Thr) Periods 3, 4, 5
Sep 13 (Fri) Periods 3, 4, 5
Sep 17 (Tue) Periods 3, 4
Sep 18 (Wed) Period 3
<Contents>
The goal of the lecture course is to deliver modern experimental and
theoretical
methods of precision measurements in quantum optics. The main
objectives of the course are the following
• description of stochastic processes in oscillatory systems
• discussion of precision methods in astrophysics and space,
introduction
to General relativity
• detailed presentation of modern methods of laser cooling,
discussion of
different trapping methods of atoms and ions
• discussion of modern approaches to laser stabilization and optical
frequency
measurements, optical clocks
Lecutre 1: Introduction
Lecture 2: Amplitude and phase fluctuations
Lecture 3: From frequency fluctuations to spectral line shape
Lecture 4: General relativity in applications to time and frequency transfer
Lecture 5: Introduction to Global navigation systems
Lecture 6: Precision measurements in astrophysics
Lecture 7: Two levels atomic system and frequency standards
Lecture 8: Laser cooling of atoms
Lecture 9: Traps for neutral atoms
Lecture 10: Paul trap for ions
Lecture 11: Penning trap for ions and ion cooling
Lecture 12: Methods of quantum logic in optical clocks
Lecture 13: Optical frequency measurements
Lecture 14: Precision spectroscopy of atomic hydrogen and the proton charge radius puzzle
Lecture 15: Laser Cooling of Thulium Atoms