Ph.D. position in Molecular Nonlinear Optics
- Lausanne, Switzerland
- Closing date
- 1 Jun 2023
Ph.D. position in Molecular Nonlinear Optics in Plasmonic Nanogaps for Optomechanical Frequency Conversion
Fully funded Ph.D. position (4 years)
Molecular Nonlinear Optics in Plasmonic Nanogaps for Optomechanical Frequency Conversion
Recently, the Laboratory of Quantum and Nano-Optics at EPFL demonstrated coherent frequency upconversion from mid-infrared to visible domain using a single plasmonic nanocavity containing a few hundred molecules as optomechanical transducer [DOI: 10.1126/science.abk3106]. The experiment is also the first realisation of vibrational sum frequency generation under continuous-wave excitation.
We are now looking for an outstanding Ph.D. candidate with a background in nano-plasmonics, molecular spectroscopy and nonlinear optics, to push this research direction into achieving single-molecule coherent mid-IR frequency upconversion. It will require developing novel plasmonic nano-antennas, advanced molecular functionalisation techniques and complex optical measurements. Only highly skilled, motivated and autonomous students may be qualified for the position.
- Outstanding academic achievements and relevant research experience;
- Excellent understanding of plasmonics, nonlinear optics and molecular spectroscopy;
- Ability to interact with the team, supervise students, and write scientific papers;
- Excellent communication skills and professional proficiency in English.
Valuable additional expertise:
- Surface science or chemistry;
- Advanced optical micro-spectroscopy.
Start date: Fall 2023 (flexible)
EPFL offers internationally competitive salaries (starting at 54’000 CHF/year for PhD students), generous research support and outstanding research infrastructure. Academics in Switzerland enjoy many research funding opportunities, as well as excellent standard of living.
EPFL is an equal opportunity employer and family friendly university. It is committed to increasing the diversity of its scientific staff.
We offer students and faculty an innovation-oriented environment equipped with state-of-the-art facilities in a cosmopolitan setting. And because we believe in learning by doing, our degree programs place a heavy emphasis on lab sessions and hands-on workshops with direct research applications.
We strive to give students solid technical skills combined with a sound basis in computational thinking. But that’s not all – we also encourage them to develop their imagination, creativity, and entrepreneurial spirit through cross-disciplinary projects.
EPFL SB IPHYS GRGA
PH D3 435
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