Gunjan Das scite author profile

Gunjan Das

4Publications

13Citation Statements Received

133Citation Statements Given

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133

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Diamond Light Source, University of Leeds

Publications

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Development of synchrotron pink beam x-ray grating interferometer at the Diamond Light source I13-2 beamline

Marathe

Storm

Kuppilli

et al. 2019

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X-ray Grating Talbot Interferometer (XGTI) is already routinely used for quantitative phase contrast imaging of soft tissue samples. XGTI can be realized using various measurement techniques, depending on the X-ray source used, the required spatial resolution and the speed of acquisition. The phase-stepping measurement technique, which is commonly used for XGTI data acquisition, needs multiple acquisitions for a single projection. For fast imaging the Moiré technique, a single-shot technique, is often preferred. However, it requires two gratings which increases the dose on the sample. We have therefore examined the Spatial Harmonic Imaging (SHI) technique which is low-dose and single-shot, using the I13-2 Diamond-Manchester Beamline at Diamond Light Source (DLS). The DLS I13-2 beamline is equipped with a Double Crystal Monochromator (DCM) and a Multi-Layer Monochromator (MLM) to deliver monochromatic beam, which work at the energy bandwidths (ΔE/E) of 10 -4 and 10 -2 , respectively. However, the disadvantage of using these monochromators, especially for fast imaging, is loss of X-ray flux. It has already been shown that XGTI can work with an energy bandwidth (ΔE/E) of 10 -1 . Our aim is to develop a single phase grating interferometer with pink beam from an undulator source, with X-ray mirror optics and multiple absorption filters, to obtain maximum possible flux with sufficient coherence and monochromaticity. We demonstrate performance with optimized beamline parameters for a photon energy of 15 keV with some demonstrative image reconstructions.

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Fast Multi-scale imaging using the Beamline I13L at the Diamond Light Source

Rau

Storm

Marathe

et al. 2019

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The DIAMOND beamline I13L is dedicated to multi-scale and multi-modal imaging in real and reciprocal space. The beamline consists of two independently operating experimental stations, located at a distance of more than 200 m from the source. The Imaging Branch performs micro-tomography with in-line phase contrast in the 6-30 keV energy range. In addition, a grating interferometry setup and a full-field microscope for nano-tomography are currently implemented. Other techniques providing high-resolution three-dimensional information, in particular coherent X-ray diffraction, are hosted on the Coherence Branch. All imaging methods are tested to operate with large energy bandwidths and therefore shorter exposure times. To this end, two options are currently used: the so-called 'pink-beam' mode using a reflecting mirror and X-ray filters and monochromatic mode using a multilayer monochromator. The operation mode enables science for in-situ and operando studies across a wide range of scientific areas.

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Time-Resolved X-ray Phase-Contrast Imaging (XPCI) of Nucleation and Crystal Growth in the Anti-Solvent Crystallization of Lovastatin

Das¹,

Pallipurath

Leng³

et al. 2020

Preprint

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<p>X-ray phase contrast imaging (XPCI) of anti-solvent crystallization of lovastatin from an acetone/water solution was carried out in a concentric flow mixing device, using water as the anti-solvent. Spinodal decomposition of the solution is observed to give rise to ‘oiled out’ phases that undergo heterogeneous nucleation at the interface with the flowing solution. Heterogeneous nucleation is also observed on the walls of the reactor walls in the form of what appears to be Stranski–Krastanov growth of plate-like crystals. XPCI together with Eulerian video magnification forms a powerful tool for the spatio-temporal analysis, revealing mechanistic details of a non-equilibrium process such as anti-solvent crystallization.</p>

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Fast multi-scale x-ray imaging

Rau

Batey

Bodey

et al. 2021

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Gunjan Das

Development of synchrotron pink beam x-ray grating interferometer at the Diamond Light source I13-2 beamline

Fast Multi-scale imaging using the Beamline I13L at the Diamond Light Source

Time-Resolved X-ray Phase-Contrast Imaging (XPCI) of Nucleation and Crystal Growth in the Anti-Solvent Crystallization of Lovastatin

Fast multi-scale x-ray imaging

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