16 laser PhD positions at CNRS

PhD (M/F) Matrix approach in laser ultrasonic techniques applied to elastic waveguides

approach in laser ultrasonic techniques applied to elastic waveguides Non-contact laser ultrasonic techniques offer a unique tool to generate and measure elastic guided waves in solids. From these waves

PhD (M/F) - Femtosecond laser tuning of nanoparticules in optical fibres

processes. This project is part of this context by developing a new process for optical fibres containing nanoparticles. The potential of this new generation of fibres as lasers and sensors has already been

PhD student (M/F): synthesis of ferroelectric thin films by pulsed laser deposition for the control of thermal conductivity

(combinatorial) pulsed laser deposition by varying the composition and growth conditions to control the ferroelectric response. The thermal conductivity of these films will then be measured, in collaboration with

PhD student M/F Study of a mass separation device with selective laser ionization for environmental and medical applications.

Laser Ionization for Applications in the Environment and Health) aims to develop instrumentation based on the coupling of laser ionization to mass separation in order to quantify, separate and purify

PhD (M/F) Nano-porous silicon-elastomer hybrid: Mechanical properties assessed by laser ultrasonics.

hybrids: from liquid-crystalline functionalization to tunable elasticity assessed by laser ultrasonics", conducted in collaboration with the Hamburg University of Technology. (Institute for Materials and X

PhD project in molecular modeling at Université Paris-Saclay (M/F)

interactions of semiconductor nano-sensors with their surrounding bio-molecular environment under the action of intense electromagnetic fields (i.e. lasers) for molecular recognition in medical applications

M/F PhD in ultrafast optics: infrared femtosecon light source for electron acceleration

the average power of high-repetition-rate Ytterbium lasers (60 MHz, 60 W, 1 µJ/pulse, <300 fs), provide advanced modulation features (pulse on demand, burst mode) and push forward the wavelength tunability

PhD student in quantum optomechanics (M/F)

to measure motional displacements below the standard quantum limit, which is intrinsically associated to any classical light source (e.g. laser). The optomechanical system that will be considered here boils

PhD fellowship on Experimental 2D-based Polaritonics: nanofabrication and optical characterization (M/F)

microcavities, demonstrating polariton Bose-Einstein condensation at room-temperature [2] and the first polariton lasers based on fast-propagating waveguide polaritons [3,4]. Since 2022, the team of Prof. Jesus

(M/F) PhD student in Theory and Numerical Simulations

, clusters) strongly perturbed by an intense external electromagnetic excitation (ultrashort and/or intense laser pulses, fast charged projectiles). We look for highly motivated candidates with a master's