【This lecture will be given in Japanese.】
In this lecture, we first learn classical feedback control for a precision measurement that is quite often required in Physics experiments. We then learn a difference between a classical control and quantum control.
Through this lecture, students will learn
(1) a meaning of trapping and cooling of an object
(2) a difference of classical and quantum controls.
feedback control, quantum limit, harmonic oscillator
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
The lecturer will use both blackboards and powerpoint slides.
The lecture will be given in Japanese for this year.
Course schedule | Required learning | |
---|---|---|
Class 1 | How we use a control | Start thinking about a control |
Class 2 | What is a feedback control | Understand a block diagram of a control system |
Class 3 | Multi-DOF control | Understand a difference between in-loop and out-loop controls |
Class 4 | Stability | Understand the Nyquist stability criterion |
Class 5 | Servo | Become able to design a servo |
Class 6 | Trapping and cooling | Understand a difference between trapping and cooling |
Class 7 | Quantum noise | Understand what the quantum noise is |
Class 8 | Classical control and quantum control | Understand a quantum control |
not in particular
not in particular
The lecturer will give an exam(s).
Not in particular