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Postdoctoral position : Extreme Light Seeded Control of Ultrafast Laser Material Modifications

Project Description :

High-peak power compact femtosecond lasers allow strong-field interactions that are the basis for high-precision laser micro-fabrication. They also create extreme conditions within the matter, leading to the generation of rainbow light used to produce even shorter pulses and new frequencies that can extend from the X-ray to the TeraHertz domain. However, due to the low conversion efficiencies, these attractive light pulses remain unexploited in the context of laser nano-/micro-fabrication.

The main objective of this project is to exceed the intrinsic limits of ultrafast laser material processing by developing novel seeded-control technologies with extreme light pulses. In the proposed concept, seed free carriers are injected into materials from extreme light and then avalanched with perfectly synchronized infrared pulses to extract all potential benefits from modest energy new types of radiation.

The project includes the study of interactions seeded with deep-ultraviolet, few-optical-cycle and mid-infrared ultrashort pulses. The expected nonlinear processes with these radiations open new and exciting opportunities to tailor material properties with nanometer-scale spatial resolutions and in the three dimensions (3D) for materials inside which the occurrence of breakdown is, today, inaccessible (e.g. semiconductors). This will lead to the first demonstrations of rapid 3D prototyping by laser of silicon photonics microdevices.

A long term objective is to open the door to the use of the most extreme ultrashort laser-induced radiations, including extreme-ultraviolet attosecond pulses that hold promises to reach the highest degree of control in the time and space of the interactions.

These and other ideas require investigations on ionization physics by ultrashort pulses at extreme wavelengths. They also require tight control of the ultrafast pulses, broadband manipulations and novel interaction diagnostics technologies that will be developed as parts of the project.


Your qualifications. We are looking for a highly motivated and independent scientist interested in laser science and technologies, ultrafast optics and/or material processing. Applicants should have demonstrated expertise in laser matter-interaction, strong-field optics or photon-based materials science. Excellent spoken and written English is mandatory.

Conditions of appointment. We offer up to 3 years of appointment according to the salary scheme of CNRS (French National Center for Scientific Research). Salary depends on experience. There are no teaching duties.

Mode of application. To apply, please send an email to David Grojo, grojo@lp3.univ-mrs.fr including a detailed CV (including a brief description of research interests, previous employments, and publication list), and contact details of at least two references (letters of recommendation are optional at this stage).

Application deadline is continuous until positions have been filled.

Job start is flexible and can be at any time after May 1st, 2017

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