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Project Overview

Project Code: CIT 08

Project name:

Dynamical Coupling in Nanoelectromechanical Systems

TUM Department:

CIT - Electrical and Computer Engineering

TUM Chair / Institute:

Chair of Nano and Quantum Sensors

Research area:

Cavity Optomechanics

Student background:

Electrical EngineeringPhysics

Further disciplines:

Planned project location:

Building 5901 (ZEITlab), Hans-Piloty-Str. 1, 85748 Garching

Project Supervisor - Contact Details


Title:

Prof. Dr. rer. nat.

Given name:

Eva Maria

Family name:

Weig

E-mail:

eva.weig@tum.de

Phone:

+49 (89) 289-51270

Additional Project Supervisor - Contact Details


Title:

Dr.-Ing.

Given name:

Ahmed

Family name:

Barakat Mosaad

E-mail:

ahmed.barakat@tum.de

Phone:

+49 (89) 289-51271

Additional Project Supervisor - Contact Details


Title:

Given name:

Family name:

E-mail:

Phone:

Project Description


Project description:

Introduction:
Nanoelectromechanics is a fast-growing field of research, which stands perfectly on the interface between the classical and quantum physics worlds, and thereby encompass several areas of knowledge including continuum mechanics, dynamics and acoustics, optics, electromagnetism and quantum mechanics. It relies on the investigation of freely suspended nanostructures like nanostrings or nanomembranes, which have been processed using state of the art nanofabrication and cleanroom technology to enable vibrations, like those of a guitar string or a drumhead, which can be controlled by means of electromagnetic fields. The work of the Chair of Nano and Quantum Sensors focuses mainly on the coupling between mechanical and electromagnetic or optical resonators. This coupling takes place in a dynamical fashion, that is for instance when the controlled oscillation of the electromagnetic/optical field acts back on the mechanical vibration, allowing to control its dynamics.

Tasks and learning outcomes:
In this project, the students are expected to learn about the physics underlying this dynamical coupling both mathematically and experimentally and obtain a real hands-on experience. In particular, the student will learn how to mathematically model the system under study, help in preparing the test rig, and assist in fabricating the nanosystems if required. Furthermore, the student will learn about the evaluation of the measurement data, and will be able to discuss the results and present them, which provides a rich experience about most of the research process. Moreover, the students will enhance their team working and communication skills by engaging in discussions with the team, and most importantly, they will enhance their critical thinking capabilities on a scientific basis.

Working hours per week planned:

40

Prerequisites


Required study level minimum (at time of TUM PREP project start):

2 years of bachelor studies completed

Subject related:

Basic theoretical physics
Basic differential equations

Other:

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