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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
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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
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(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
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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
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15 May 2024 Job Information Organisation/Company CNRS Department Laboratoire pour l'utilisation des lasers intenses Research Field Physics Researcher Profile First Stage Researcher (R1) Country
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18 May 2024 Job Information Organisation/Company CNRS Department Physique des lasers, atomes et molécules Research Field Physics Researcher Profile Recognised Researcher (R2) Country France
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the candidate will: - Develop laser ionization schemes suitable to the thulium (Tm) and lutecium (Lu) chemical elements. - Take leadership in conducting experimental tests aiming at producing and measuring
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postdoc position to work on a research and development program aiming at improving the sensitivity of laser interferometer gravitational wave detectors by reducing the effect of coating thermal noise
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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
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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