Didier Perrodin scite author profile

The main objective of this contribution is to point out the potentialities of cerium doped LuAG single crystal as pixels and fibers. We first show that after optimization of growth conditions using Bridgman technology, this composition exhibits very good performances for scintillating applications (up to 26 000 photons/MeV). When grown with the micropulling down technology, fiber shapes can be obtained while the intrinsic performances are preserved. For the future high energy experiments requiring new detector concepts capable of delivering much richer informations about x- or gamma-ray energy deposition, unusual fiber shaped dense materials need to be developed. We demonstrate in this frame that cerium doped LuAG is a serious candidate for the next generation of ionizing radiation calorimeters.

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High-power laser with Nd:YAG single-crystal fiber grown by the micro-pulling-down technique

Didierjean

Castaing

Balembois

et al. 2006

Opt. Lett.

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We present optical characterization and laser results achieved with single-crystal fibers directly grown by the micro-pulling-down technique. We investigate the spectroscopic and optical quality of the fiber, and we present the first laser results. We achieved a cw laser power of 10 W at 1064 nm for an incident pump power of 60 W at 808 nm and 360 kW peak power for 12 ns pulses at 1 kHz in the Q-switched regime. It is, to the best of our knowledge, the highest laser power ever achieved with directly grown single-crystal fibers.

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High power laser operation with crystal fibers

et al. 2009

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Real-time Crystal Growth Visualization and Quantification by Energy-Resolved Neutron Imaging

Tremsin

Perrodin

Losko

et al. 2017

Sci Rep

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Energy-resolved neutron imaging is investigated as a real-time diagnostic tool for visualization and in-situ measurements of “blind” processes. This technique is demonstrated for the Bridgman-type crystal growth enabling remote and direct measurements of growth parameters crucial for process optimization. The location and shape of the interface between liquid and solid phases are monitored in real-time, concurrently with the measurement of elemental distribution within the growth volume and with the identification of structural features with a ~100 μm spatial resolution. Such diagnostics can substantially reduce the development time between exploratory small scale growth of new materials and their subsequent commercial production. This technique is widely applicable and is not limited to crystal growth processes.

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Determination of the structural phase and octahedral rotation angle in halide perovskites

Reis

Yang

Ophus

et al. 2018

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A key to the unique combination of electronic and optical properties in halide perovskite materials lies in their rich structural complexity. However, their radiation sensitive nature limits nanoscale structural characterization requiring dose efficient microscopic techniques in order to determine their structures precisely. In this work, we determine the space-group and directly image the Br halide sites of CsPbBr3, a promising material for optoelectronic applications. Based on the symmetry of high-order Laue zone reflections of convergent-beam electron diffraction, we identify the tetragonal (I4/mcm) structural phase of CsPbBr3 at cryogenic temperature. Electron ptychography provides a highly sensitive phase contrast measurement of the halide positions under low electron-dose conditions, enabling imaging of the elongated Br sites originating from the out-of-phase octahedral rotation viewed along the [001] direction of I4/mcm persisting at room temperature. The measurement of these features and comparison with simulations yield an octahedral rotation angle of 6.5°(±1.5°). The approach demonstrated here opens up opportunities for understanding the atomic scale structural phenomena applying advanced characterization tools on a wide range of radiation sensitive halide-based all-inorganic and hybrid organic-inorganic perovskites.

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The curious case of cuprous chloride: Giant thermal resistance and anharmonic quasiparticle spectra driven by dispersion nesting

et al. 2017

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Fiber Single‐Crystal Growth from the Melt for Optical Applications

Lebbou

Perrodin

Chani

et al. 2005

Journal of the American Ceramic Society

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The micro‐pulling‐down technique has been applied to produce undoped and 0.1% Nd3+‐doped Y3Al5O12 garnet single‐crystal fibers with controlled diameter. The hot zone construction and fiber‐pulling conditions have been optimized. As a result, growth of transparent and homogeneous fiber crystals has been achieved. The crystals have been grown under 105 Pa (1 atm) of argon atmosphere, with the pulling rate varied in the range of 0.3–2.0 mm/min. One hundred percent of the starting melt has been normally transformed into a crystalline material, with an empty crucible ready for the next growth procedure. The as‐produced fibers demonstrate promising optical properties.

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Diode-pumped laser with Yb:YAG single-crystal fiber grown by the micro-pulling down technique

et al. 2008

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Didier Perrodin

LuAG:Ce fibers for high energy calorimetry

High-power laser with Nd:YAG single-crystal fiber grown by the micro-pulling-down technique

High power laser operation with crystal fibers

Real-time Crystal Growth Visualization and Quantification by Energy-Resolved Neutron Imaging

Determination of the structural phase and octahedral rotation angle in halide perovskites

The curious case of cuprous chloride: Giant thermal resistance and anharmonic quasiparticle spectra driven by dispersion nesting

Fiber Single‐Crystal Growth from the Melt for Optical Applications

Diode-pumped laser with Yb:YAG single-crystal fiber grown by the micro-pulling down technique

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