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Alexander Long

Profile Information
Name
Dr. Alexander Long
Institution
Los Alamos National Laboratory
Position
Staff Scientist
h-Index
ORCID
0000-0003-4300-9454
Biography

I am a staff scientist at Los Alamos National Laboratory working at the Los Alamos Neutron Science Center (LANSCE). Most of my research focuses on developing advanced neutron imaging techniques to characterize materials for nuclear energy and national security programs. I am the main instrument scientist for two of the neutron imaging flight paths at the Lujan Center at LANSCE, Flight Path 11 (ASTERIX) and Flight Path 5 (ERNI).

Expertise
Actinide Materials, Advanced Fuels, Beamline, Image Processing, Moderators, Molten Salt, Neutron Imaging
Additional Publications:
"Exploring interface dynamics in plastic bonded-explosives: synthesis, characterization, and neutron reflectometry" Matthew J. Herman, Erik B. Watkins, John D. Yeager, Michael P. Marquez, Alexander M. Long, D. Travis Carver, Robert Knepper, Tonya L. Kuhl, Michael R. Bull, [2025] Journal of Energetic Materials · DOI: 10.1080/07370652.2025.2472650
"Low Energy Neutron-induced Charged-particle (Z) (LENZ) instrument development with a focus on pulse shape discrimination for low-energy charged particles" S.A. Kuvin, S.M. Mosby, C.J. Prokop, A.M. Long, D. Votaw, A. Georgiadou, J. Görres, E. Stech, M. Wiescher, H.Y. Lee, [2024] Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment · DOI: 10.1016/j.nima.2024.169941
"Status Report on Characterization of High Burnup Fuel with Advanced Nondestructive Pulsed Neutron PIE" Fabiola Cappia, Luca Capriotti, William Cureton, Christopher Fairbanks, Jason Harp, Alexander Long, Cristian Villazhannay, Sven Vogel, [2024] · DOI: 10.2172/2441396
"TRINIDI: Time-of-Flight Resonance Imaging With Neutrons for Isotopic Density Inference" Alexander M. Long, Sven C. Vogel, Brendt Wohlberg, Charles A. Bouman, Thilo Balke, [2024] IEEE Transactions on Computational Imaging · DOI: 10.1109/tci.2023.3345635
"In-Situ Spatial Mapping of Hydrogen in Yttrium Hydrides at LANSCE (FY23 Version, Rev. 1)" James Torres, Alexander Long, Dale Carver, Cristina Cardona, Erik Luther, Caitlin Kohnert, Holly Trellue, Sven Vogel, Aditya Shivprasad, [2023] · DOI: 10.2172/2007350
"The Complex, Unique, and Powerful Imaging Instrument for Dynamics (CUPI2D) at the Spallation Neutron Source (invited)" Hassina Z. Bilheux, Jiao Y. Y. Lin, George J. Nelson, Andrew M. Kiss, Jonathan Morris, Matthew J. Connolly, Alexander M. Long, Anton S. Tremsin, Andrea Strzelec, Mark H. Anderson, Robert Agasie, Charles E. A. Finney, Martin L. Wissink, Mija H. Hubler, Roland J.-M. Pellenq, Claire E. White, Brent J. Heuser, Aaron E. Craft, Jason M. Harp, Chuting Tan, Kathryn Morris, Ann Junghans, Sanna Sevanto, Jeffrey M. Warren, Fernando L. Esteban Florez, Alexandru S. Biris, Maria Cekanova, Nikolay Kardjilov, Burkhard Schillinger, Matthew J. Frost, Sven C. Vogel, Adrian Brügger, [2023] Review of Scientific Instruments · DOI: 10.1063/5.0131778

The Oak Ridge National Laboratory is planning to build the Second Target Station (STS) at the Spallation Neutron Source (SNS). STS will host a suite of novel instruments that complement the First Target Station’s beamline capabilities by offering an increased flux for cold neutrons and a broader wavelength bandwidth. A novel neutron imaging beamline, named the Complex, Unique, and Powerful Imaging Instrument for Dynamics (CUPI2D), is among the first eight instruments that will be commissioned at STS as part of the construction project. CUPI2D is designed for a broad range of neutron imaging scientific applications, such as energy storage and conversion (batteries and fuel cells), materials science and engineering (additive manufacturing, superalloys, and archaeometry), nuclear materials (novel cladding materials, nuclear fuel, and moderators), cementitious materials, biology/medical/dental applications (regenerative medicine and cancer), and life sciences (plant–soil interactions and nutrient dynamics). The innovation of this instrument lies in the utilization of a high flux of wavelength-separated cold neutrons to perform real time in situ neutron grating interferometry and Bragg edge imaging—with a wavelength resolution of δλ/λ ≈ 0.3%—simultaneously when required, across a broad range of length and time scales. This manuscript briefly describes the science enabled at CUPI2D based on its unique capabilities. The preliminary beamline performance, a design concept, and future development requirements are also presented.
"Density Measurement of NaCl-MgCl2-PuCl3 and NaCl-UCl3-PuCl3 Molten Salt Systems by Neutron Radiographic Dilatometry" Alexander Long, Dale Carver, Jay Jackson, Marisa Monreal, Stephen Parker, [2023] · DOI: 10.2172/1962778
"Characterizing Hydrogen in Moderators with Neutron Imaging @ LANSCE [Slides]" James Torres, Dale Carver, Holly Trellue, Erik Luther, Aditya Shivprasad, Caitlin Taylor, Sven Vogel, Cristina Cardona, Alexander Long, [2022] · DOI: 10.2172/1887099
"In-Situ Spatial Mapping of Hydrogen in Yttrium Hydrides at LANSCE" James Torres, Dale Carver, Cristina Garcia Cardona, Erik Luther, Aditya Shivprasad, Caitlin Taylor, Holly Trellue, Sven Vogel, Alexander Long, [2022] · DOI: 10.2172/1884749
"Non-destructive characterization of alloys solidified in microgravity [Slides]" Bjorn Clausen, Alexander Long, Erik Watkins, Donald Gautier, Jonas Valloton, Sven Vogel, [2022] · DOI: 10.2172/1867143
"Demonstration of Advanced Experimental and Theoretical Characterization of Hydrogen Dynamics and Associated Behavior in Advanced Reactors" Sven Vogel, Alexander Long, Vedant Mehta, Jerawan Armstrong, Gregg Mckinney, Aditya Shivprasad, Erik Luther, Michael Cooper, Robert Wilkerson, Joshua Payne, Dale Carver, Michael Rising, Jeffrey Bull, Joel Kulesza, Holly Trellue, [2021] · DOI: 10.2172/1784682
"Remote Density Measurements of Molten Salts via Neutron Radiography" S. Scott Parker, D. Travis Carver, J. Matt Jackson, Marisa J. Monreal, Darcy A. Newmark, Sven C. Vogel, Alexander M. Long, [2021] Journal of Imaging · DOI: 10.3390/jimaging7050088

With an increased interest in the use of molten salts in both nuclear and non-nuclear systems, measuring important thermophysical properties of specific salt mixtures becomes critical in understanding salt performance and behavior. One of the more basic and significant thermophysical properties of a given salt system is density as a function of temperature. With this in mind, this work aims to present and layout a novel approach to measuring densities of molten salt systems using neutron radiography. This work was performed on Flight Path 5 at the Los Alamos Neutron Science Center at Los Alamos National Laboratory. In order to benchmark this initial work, three salt mixtures were measured, NaCl, LiCl (58.2 mol%) + KCl (41.8 mol%), and MgCl2 (32 mol%) + KCl (68 mol%). Resulting densities as a function of temperature for each sample from this work were then compared to previous works employing traditional techniques. Results from this work match well with previous literature values for all salt mixtures measured, establishing that neutron radiography is a viable technique to measure density as a function of temperature in molten salt systems. Finally, advantages of using neutron radiography over other methods are discussed and future work in improving this technique is covered.
"First Examination of Irradiated Fuel with Pulsed Neutrons at LANSCE (Preliminary Results)" Thilo Balke, Charles Bouman, Luca Capriotti, Jason Harp, Alexander Long, Danielle Schaper, Anton Tremsin, Brendt Wohlberg, Sven Vogel, [2020] · DOI: 10.2172/1669062
"Status Report on Development of a Cask to Enable Pulsed Neutron Characterization of Irradiated Fuel" James Angell, Dale Carver, Aaron Craft, Jason Harp, Peter Hosemann, Eric Larson, Jay Lin, Alexander Long, Sven Vogel, [2020] · DOI: 10.2172/1663154
"High Temperature Moderator Material for Microreactors [Slides]" Erik Luther, Alexander Long, Theresa Cutler, Travis Grove, Vedant Mehta, Michael Cooper, Joshua White, Tarik Saleh, Joseph Wermer, Holly Trellue, Aditya Shivprasad, [2020] · DOI: 10.2172/1602731
"α -unbound levels in Ar34 from Ar36(p,t)Ar34 reaction measurements and implications for the astrophysical S30(α,p)Cl33 reaction rate" T. Adachi, M. Beard, G. P. A. Berg, M. Couder, R. J. deBoer, M. Dozono, J. Görres, H. Fujita, Y. Fujita, K. Hatanaka, D. Ishikawa, T. Kubo, H. Matsubara, Y. Namiki, S. O'Brien, Y. Ohkuma, H. Okamura, H. J. Ong, D. Patel, Y. Sakemi, Y. Shimbara, S. Suzuki, R. Talwar, A. Tamii, A. Volya, T. Wakasa, R. Watanabe, M. Wiescher, R. Yamada, J. Zenihiro, A. M. Long, [2018] · DOI: 10.1103/physrevc.97.054613 · ISSN: 2469-9985
"Indirect study of the stellar Ar34(α,p)K37 reaction rate through Ca40(p,t)Ca38 reaction measurements" T. Adachi, M. Beard, G. P. A. Berg, Z. Buthelezi, J. Carter, M. Couder, R. J. deBoer, R. W. Fearick, S. V. Förtsch, J. Görres, J. P. Mira, S. H. T. Murray, R. Neveling, P. Papka, F. D. Smit, E. Sideras-Haddad, J. A. Swartz, R. Talwar, I. T. Usman, M. Wiescher, J. J. Van Zyl, A. Volya, A. M. Long, [2017] · DOI: 10.1103/physrevc.95.055803 · ISSN: 2469-9985
Source: ORCID/CrossRef using DOI

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The Nuclear Science User Facilities (NSUF) is the U.S. Department of Energy Office of Nuclear Energy's only designated nuclear energy user facility. Through peer-reviewed proposal processes, the NSUF provides researchers access to neutron, ion, and gamma irradiations, post-irradiation examination and beamline capabilities at Idaho National Laboratory and a diverse mix of university, national laboratory and industry partner institutions.

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