Juliano Murari scite author profile

Juliano Murari

4Publications

32Citation Statements Received

11Citation Statements Given

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Affiliations

Brazilian Center for Research in Energy and Materials, Brazilian Synchrotron Light Laboratory

Publications

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Upgrades to the XAFS2 beamline control system and to the endstation at the LNLS

Figueroa

Mauricio

Murari

et al. 2016

J. Phys.: Conf. Ser.

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Abstract. The XAFS2 is a general-purpose X-ray absorption beamline. It is the second one built at the LNLS. After approximately 7 years in operation this beamline has been substantially updated in order to improve its experimental possibilities. Recently arrived, a 4-circle Huber diffractometer has been incorporated to perform combined experiments. This collects XRD patterns with the XAFS. Through the development of a new sampling environment it is now also possible to perform these measurements in situ/operando conditions. Other upgrades include a complete remodelling of the beamline software and its control system. The following new systems are crucial for the next steps that are currently underway at the beamline, namely, (i) enabling remote access for users and (ii) the testing of QEXAFS measurements. IntroductionUpon the completion, in 2007, of the commissioned works on the XAFS2 [1], a large number of users have been using this experimental facility in order to perform several kinds of experiments [2][3][4][5]. Since 2007, and with the development of combined simultaneous characterizations [6], there are a plethora of new possibilities additional to the usual XAFS experiments. Among these numerous possibilities; a combined XAFS and XRD experiment would be especially useful in order to obtain structural information of the short range order (around a selected absorber atom) and of the long range order, thus unveiling information on the material as a whole. Here one is probing different properties of the same system in a unique experiment under the same conditions, thus bridging the complex gaps in the structure. Therefore, in order to improve those abilities of the beamline, a 4-circle Huber Diffractometer was added to the experimental hutch in order to explore both techniques [7] through user demand. Here below an example of these XAFS and XRD measurements is presented. The example shows the performance of the beamline at work while combining both techniques.Importantly, the control system of the beamline has been renovated by the installation of a PXI. The PXI is from National Instruments (PXI-NI) and communicates with Galil/Parker controllers on an EPICS platform [8]. Note some parts of the motors were changed in order to improve performance with the upgrade and there were also important changes to the control hardware. The Windows

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Development of fast scanning X-ray fluorescence microscopy at the LNLS D09B-XRF beamline

Pérez¹,

Murari²,

Moreno³

et al. 2016

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Today, the beamline comprises a new X-ray microfocusing optic based on a pair of bendable mirrors in the Kirkpatrick-Baez arrangement. The upgrading strategy also involved the migration of the control system to a NI PXI system (National Instruments Corporation), integrated with an open source EPICS/Linux platform. A new approach using a PXI system as a hardware triggering interface was developed in order to provide a continuous scanning mode of operation ("on-the-fly" scans) at D09B-XRF beamline. In this work, the main features of the LNLS XRF microprobe station as well as a description for setting up a general approach for fast scanning mode operation will be presented.

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Data Acquisition Strategy and Developments at MAX IV

Eguiraun¹,

Amjad²,

Bell³

et al. 2020

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Parallel Execution of Sequential Data Analysis

Murari¹,

Klementiev²

2018

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Juliano Murari

Upgrades to the XAFS2 beamline control system and to the endstation at the LNLS

Development of fast scanning X-ray fluorescence microscopy at the LNLS D09B-XRF beamline

Data Acquisition Strategy and Developments at MAX IV

Parallel Execution of Sequential Data Analysis

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