Emmanuel Papillon scite author profile

A 2D photon-counting X-ray detector system with 1.4 kHz frame rate and 55 µm spatial resolution has been developed and commissionned on ESRF beamlines. The system called MAXIPIX (Multichip Area X-ray detector based on a photon-counting PIXel array) consists of a detector module implementing up to five MEDIPIX-2 or TIMEPIX photon-counting readout chips, a custom readout interface board and a Linux acquisition workstation. The detector module readout time is 290 microseconds, allowing the system to achieve sustained frame rates of 280 Hz to 1400 Hz depending on the number of connected chips. An effective time resolution of 60 ns was measured using the ESRF pulsed modes and a TIMEPIX module. The system architecture and characteristics are presented, as well as a summary of its applications on ESRF beamlines.

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The ID21 X-ray and infrared microscopy beamline at the ESRF: status and recent applications to artistic materials

Cotte

Pouyet

Salomé

et al. 2017

J. Anal. At. Spectrom.

153

101

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ID15A at the ESRF – a beamline for high speed operando X-ray diffraction, diffraction tomography and total scattering

et al. 2020

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ID15A is a newly refurbished beamline at the ESRF devoted to operando and time‐resolved diffraction and imaging, total scattering and diffraction computed tomography. The beamline is optimized for rapid alternation between the different techniques during a single operando experiment in order to collect complementary data on working systems. The high available energy (up to 120 keV) means that even bulky and highly absorbing systems may be studied. The beamline is equipped with optimized focusing optics and a photon‐counting CdTe pixel detector, allowing for both unprecedented data quality at high energy and for very rapid triggered experiments. A large choice of imaging detectors and ancillary probes and sample environments is also available.

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The ID21 Scanning X-ray Microscope at ESRF

Salomé

Cotte

Baker

et al. 2013

J. Phys.: Conf. Ser.

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