Search Results - "Baczewski, A. D."

X-ray Thomson Scattering in Warm Dense Matter without the Chihara Decomposition by Baczewski, A D, Shulenburger, L, Desjarlais, M P, Hansen, S B, Magyar, R J

“…X-ray Thomson scattering is an important experimental technique used to measure the temperature, ionization state, structure, and density of warm dense matter…”
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Evaluating Energy Differences on a Quantum Computer with Robust Phase Estimation by Russo, A. E., Rudinger, K. M., Morrison, B. C. A., Baczewski, A. D.

“…We adapt the robust phase estimation algorithm to the evaluation of energy differences between two eigenstates using a quantum computer. This approach does not…”
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X-ray Thomson scattering absolute intensity from the f-sum rule in the imaginary-time domain by Dornheim, T., Döppner, T., Baczewski, A. D., Tolias, P., Böhme, M. P., Moldabekov, Zh. A., Gawne, Th, Ranjan, D., Chapman, D. A., MacDonald, M. J., Preston, Th. R., Kraus, D., Vorberger, J.

“…We present a formally exact and simulation-free approach for the normalization of X-ray Thomson scattering (XRTS) spectra based on the f-sum rule of the…”
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Stopping of Deuterium in Warm Dense Deuterium from Ehrenfest Time-Dependent Density Functional Theory by Magyar, R. J., Shulenburger, L., Baczewski, A. D.

“…In these proceedings, we show that time‐dependent density functional theory is capable of stopping calculations at the extreme conditions of temperature and…”
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The Nature of the Interlayer Interaction in Bulk and Few-Layer Phosphorus by Shulenburger, L, Baczewski, A.D, Zhu, Z, Guan, J, Tománek, D

“…Sensitive dependence of the electronic structure on the number of layers in few-layer phosphorene raises a question about the true nature of the interlayer…”
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Evaluating energy differences on a quantum computer with robust phase estimation by Russo, A. E, Rudinger, K. M, Morrison, B. C. A, Baczewski, A. D

“…Phys. Rev. Lett. 126, 210501 (2021) We adapt the robust phase estimation algorithm to the evaluation of energy differences between two eigenstates using a…”
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Review of the first charged-particle transport coefficient comparison workshop by Grabowski, P.E., Hansen, S.B., Murillo, M.S., Stanton, L.G., Graziani, F.R., Zylstra, A.B., Baalrud, S.D., Arnault, P., Baczewski, A.D., Benedict, L.X., Blancard, C., Čertík, O., Clérouin, J., Collins, L.A., Copeland, S., Correa, A.A., Dai, J., Daligault, J., Desjarlais, M.P., Dharma-wardana, M.W.C., Faussurier, G., Haack, J., Haxhimali, T., Hayes-Sterbenz, A., Hou, Y., Hu, S.X., Jensen, D., Jungman, G., Kagan, G., Kang, D., Kress, J.D., Ma, Q., Marciante, M., Meyer, E., Rudd, R.E., Saumon, D., Shulenburger, L., Singleton, R.L., Sjostrom, T., Stanek, L.J., Starrett, C.E., Ticknor, C., Valaitis, S., Venzke, J., White, A.

“…We present the results of the first Charged-Particle Transport Coefficient Code Comparison Workshop, which was held in Albuquerque, NM October 4–6, 2016. In…”
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Review of the First Charged-Particle Transport Coefficient Comparison Workshop by Grabowski, P. E, Hansen, S. B, Murillo, M. S, Stanton, L. G, Graziani, F. R, Zylstra, A. B, Baalrud, S. D, Arnault, P, Baczewski, A. D, Benedict, L. X, Blancard, C, Certik, O, Clerouin, J, Collins, L. A, Copeland, S, Correa, A. A, Dai, J, Daligault, J, Desjarlais, M. P, Dharma-wardana, M. W. C, Faussurier, G, Haack, J, Haxhimali, T, Hayes-Sterbenz, A, Hou, Y, Hu, S. X, Jensen, D, Jungman, G, Kagan, G, Kang, D, Kress, J. D, Ma, Q, Marciante, M, Meyer, E, Rudd, R. E, Saumon, D, Shulenburger, L, SingletonJr, R. L, Sjostrom, T, Stanek, L. J, Starrett, C. E, Ticknor, C, Valaitis, S, Venzke, J, White, A

“…We present the results of the first Charged-Particle Transport Coefficient Code Comparison Workshop, which was held in Albuquerque, NM October 4-6, 2016. In…”
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An O(N) method for the rapid analysis of periodic problems using Accelerated Cartesian Expansions (ACE) by Baczewski, A D, Shanker, B

“…In this work, we present a framework in which ACE is utilized to reduce this doubly quadratic cost to 0{N) + 0{s). This method is particularly well suited to…”
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Accelerated Cartesian Expansions for the Rapid Solution of Periodic Multiscale Problems by Baczewski, A. D., Dault, D. L., Shanker, B.

“…We present an algorithm for the fast and efficient solution of integral equations that arise in the analysis of scattering from periodic arrays of PEC objects,…”
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Investigation of Hardy space infinite elements in a discontinuous Galerkin framework by Hughey, S., Baczewski, A. D., Shanker, B.

“…The theory and applications of local transparent boundary conditions (TBCs) is a topic of current interest. The Hardy space infinite element (HSIE) method for…”
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Computational analysis of optical field enhancement in disordered nanoscale structures with applications to surface enhanced raman spectroscopy by Baczewski, A D, Dault, D, Shanker, B, Hogan, T P

“…In this work, the authors present a method for analyzing field enhancement in dense, disordered, semiconductor nanowire forests coated in noble metal…”
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Top-gated atomic precision phosphorous doped silicon single electron transistor with low thermal budget gate dielectric by Anderson, E. M., Maurer, L., Tracy, L., Smith, S. W., Lu, P., Katzenmeyer, A. M., Baczewski, A.D., Campbell, D. M., Marshall, M. T., Ward, D. R., Lu, T.-M., Misra, S.

“…Exponential increases in semiconductor device density have been accompanied by exponential increases in tooling costs for successive generations. Atomically…”
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Applications of periodic Accelerated Cartesian Expansions to the analysis of electrically dense frequency selective structures by Baczewski, A. D., Shanker, B.

“…The method of Accelerated Cartesian Expansions (ACE) is an O(N) tree-based algorithm similar to the well-known Fast Multipole Method (FMM). Recent work has…”
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Simulated Surface Enhanced Raman Spectroscopy via scattering on a dense, randomly-oriented, array of nanostructures by Baczewski, A.D., Shanker, B., Kempel, L.C., Hogan, T.P.

“…This work proposes a set of stochastic experiments that aims to study the surface enhanced Raman spectroscopy (SERS) parameter space in silico. The…”
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Fast methods for the evaluation of the diffusion kernel with potential extensions to the dissipative kernel by Baczewski, A.D., Vikram, M.R., Shanker, B., Kempel, L.C.

“…The solution of time-domain integral equations involving the diffusion or dissipative kernel require the evaluation of convolutions in space and time which…”
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Registration of Tapping and Contact Mode Atomic Force Microscopy Images by Fan, Y., Chen, Q., Kumar, S.A., Baczewski, A.D., Tram, N.V., Ayres, V.M., Udpa, L., Rice, A.F.

“…Atomic Force Microscopes can operate in multiple modes, such as contact, tapping, force-volume, etc., each mode providing different types of information about…”
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