Publications by authors named "Sathya R Chitturi"
Understanding the nature and origin of collective excitations in materials is of fundamental importance for unraveling the underlying physics of a many-body system. Excitation spectra are usually obtained by measuring the dynamical structure factor, S(Q, ω), using inelastic neutron or x-ray scattering techniques and are analyzed by comparing the experimental results against calculated predictions. We introduce a data-driven analysis tool which leverages 'neural implicit representations' that are specifically tailored for handling spectrographic measurements and are able to efficiently obtain unknown parameters from experimental data via automatic differentiation.
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- X-ray free electron lasers (XFELs) are revolutionizing research by allowing scientists to create new states of matter and observe atomic motion through precise x-ray pulse measurements over time.
- A new methodology has been developed that significantly improves efficiency in analyzing photon distributions, achieving faster processing times on both CPU and GPU hardware, while maintaining accuracy in low-contrast scenarios.
- This AI-assisted algorithm not only simplifies complex analyses but also paves the way for new experimental possibilities in x-ray coherence spectroscopy, expanding its applications in structural dynamics.
A key step in the analysis of powder X-ray diffraction (PXRD) data is the accurate determination of unit-cell lattice parameters. This step often requires significant human intervention and is a bottleneck that hinders efforts towards automated analysis. This work develops a series of one-dimensional convolutional neural networks (1D-CNNs) trained to provide lattice parameter estimates for each crystal system.
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