Experimental PhD in quantum optomechanics (M/F)
New
- FTC PhD student / Offer for thesis
- 36 mounth
- BAC+5
This offer is available in English version
This offer is open to people with a document recognizing their status as a disabled worker.
Offer at a glance
The Unit
Laboratoire ondes et matière d'Aquitaine
Contract Type
FTC PhD student / Offer for thesis
Working hHours
Full Time
Workplace
33405 TALENCE
Contract Duration
36 mounth
Date of Hire
01/09/2026
Remuneration
2300 € gross monthly
Apply Application Deadline : 30 March 2026 23:59
Job Description
Thesis Subject
Optomechanics explores the interaction between light and mechanical vibrations [1]. As a typical example, one can consider a Fabry-Perot cavity (i.e., optical mode), in which one of the two mirrors is vibrating (i.e., mechanical mode). These devices serve as invaluable platforms for studying macroscopic quantum phenomena such as macroscopic quantum coherence and classical-to-quantum transition. In particular, macroscopic quantum entanglement involving two massive oscillators has recently been observed in optomechanical platforms [2]. Practically, the applicability of modern quantum technologies in optomechanical networks ultimately requires quantum entanglement of light and many vibrations—i.e., multiple degenerate mechanical modes (i.e., same frequency) used as nodes of the network [3].
To display quantum properties, a mechanical mode must be cooled down close to its ground state (i.e., down to a few quanta of vibrational energy), which is typically achieved by leveraging the optical field. Sadly, when considering multiple degenerate modes, one cannot apply conventional cooling techniques that have been devised for single modes. There, the challenge originates from the emergence of dark modes (i.e., hybridization of degenerate modes), which are decouple from the optical field and cannot be cooled (thus precluding any quantumness) [4].
Throughout this PhD, the candidate will experimentally implement a new cooling technique intended to achieve the first-ever cooling of degenerate modes of a mechanical membrane. Compared to former strategies, here, a spatial light modulator is used to spatially shape the wavefront of the light beam. Such a modulation enables to exert simultaneously adapted optical forces on each mode in order to reduce (i.e., cool) their individual vibrations. The student will be closely guided by the advisors and will acquire both theoretical and experimental skills on optomechanics, quantum physics and spatial modulation techniques.
[1] Aspelmeyer et al., Rev Mod Phys, 2014
[2] Riedinger et al., Nature, 2018
[3] Kimble, Nature, 2008
[4] Lai et al., Phys Rev Letters, 2022
Your Work Environment
This PhD will take place in the team "Photonics and Metarials" at LOMA (Bordeaux's University). The student will join the group of Nicolas Bachelard and focus on experimental optomechanics.
Compensation and benefits
Compensation
2300 € gross monthly
Annual leave and RTT
44 jours
Remote Working practice and compensation
Pratique et indemnisation du TT
Transport
Prise en charge à 75% du coût et forfait mobilité durable jusqu’à 300€
About the offer
| Offer reference | UMR5798-NICBAC-009 |
|---|---|
| CN Section(s) / Research Area | Atoms and molecules, optics and lasers, hot plasmas |
About the CNRS
The CNRS is a major player in fundamental research on a global scale. The CNRS is the only French organization active in all scientific fields. Its unique position as a multi-specialist allows it to bring together different disciplines to address the most important challenges of the contemporary world, in connection with the actors of change.
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