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modeling of x-ray spectroscopies sensitive to molecular chirality; simulations of x-ray–induced ultrafast electron-transfer, decay, and nuclear dynamics in gas- and liquid-phase systems; and the development
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time-resolved hard X-ray diffraction microscopy and spectroscopy on single-crystalline bulk and thin film quantum materials (e.g. ferroelectrics, multiferroics, strongly correlated electron systems
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The Materials Science Division (MSD) at Argonne National Laboratory is seeking highly motivated applicants for a postdoctoral appointee to join a multidisciplinary team developing next-generation tunable and narrow-bandwidth terahertz (THz) radiation sources and applying them to the study of...
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, and electrochemical impedance spectroscopy. An understanding of bulk and thin film materials characterization techniques such as X-ray diffraction, X-ray photoelectron spectroscopy, spectroscopic
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agents for X-ray spectroscopy by integrating large language models (LLMs) with physics-aware spectroscopy workflows. The researcher will work closely with a multidisciplinary team of X-ray physicists and
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, or spectroscopy datasets. Familiarity with total scattering analysis, pair distribution function (PDF) methods, or diffraction data analysis. Experience with automated data pipelines, high-throughput analysis
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Plan and execute in situ/operando experiments using advanced characterization methods, including Near Ambient Pressure X-ray Photoelectron Spectroscopy (NAP-XPS), electron microscopy, Raman spectroscopy
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ultrafast nonlinear optical spectroscopy techniques—such as transient absorption and impulsive vibrational spectroscopy—the role aims to probe polariton-controlled electronic and nuclear dynamics occurring
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emitters, including photon correlation and spectroscopy measurements About the Team You will join a collaborative team of physicists and engineers drawn from Argonne's High Energy Physics (HEP), X-ray
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facilities, who are developing complementary microscopy and AI/ML workflows, ensuring that multimodal datasets (X-ray, electron microscopy, and spectroscopy) are well-aligned and interoperable. These positions