Andrew Higginbotham

3.0k citations

40 papers · 1.4k indexed · h-index 18

Structural Biology top 1%
Geophysics top 2%
- High-pressure geophysics and materials 32
Radiation top 2%
- Advanced X-ray Imaging Techniques 5
Nuclear and High Energy Physics top 10%
- Laser-Plasma Interactions and Diagnostics 9
Materials Chemistry top 5%
- Diamond and Carbon-based Materials Research 11
- High-Velocity Impact and Material Behavior 11
- Microstructure and mechanical properties 7
Mechanics of Materials
- Metal and Thin Film Mechanics 7
Computational Mechanics
- Ion-surface interactions and analysis 5

Co-authors: J. S. Wark J. Hawreliak Bob Nagler Nigel Park Matthew Suggit M. Messerschmidt Garth J. Williams Eduardo M. Bringa
Cited by: Structural Biology Geophysics Radiation
Journals: Science (2 papers)Physical Review Letters (4 papers)Nature Communications (1 paper)
Partner nations: United Kingdom United States Argentina

In The Last Decade

Andrew Higginbotham

40 papers receiving 1.4k citations

Peers

Countries citing papers authored by Andrew Higginbotham

Since Specialization

Citations

This map shows the geographic impact of Andrew Higginbotham's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Andrew Higginbotham with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Andrew Higginbotham more than expected).

Fields of papers citing papers by Andrew Higginbotham

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Andrew Higginbotham. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Andrew Higginbotham. The network helps show where Andrew Higginbotham may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Andrew Higginbotham, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Andrew Higginbotham Line = papers co-authored together Andrew Higginbotham links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Femtosecond quantification of void evolution during rapid material failure Science Advances ·James A. Coakley,Andrew Higginbotham,D. McGonegle,Ján Ilavský,Thomas D. Swinburne,J. S. Wark,K.M. Rahman,V.A. Vorontsov,David Dye,Thomas J. Lane,Sébastien Boutet,Jason E. Koglin,Joseph R. Robinson,Despina Milathianaki	2020	31
2	Investigating off-Hugoniot states using multi-layer ring-up targets Scientific Reports ·D. McGonegle,P. G. Heighway,Marcin Sliwa,C. A. Bolme,A. J. Comley,Leora E. Dresselhaus‐Marais,Andrew Higginbotham,A. J. Poole,E. E. McBride,Bob Nagler,Inhyuk Nam,Matthew Seaberg,B. A. Remington,Robert E. Rudd,C. E. Wehrenberg,J. S. Wark	2020	6
3	Nonisentropic Release of a Shocked Solid Physical Review Letters ·P. G. Heighway,Marcin Sliwa,D. McGonegle,C. E. Wehrenberg,C. A. Bolme,J. H. Eggert,Andrew Higginbotham,Amy Lazicki,Hae Ja Lee,Bob Nagler,H.‐S. Park,Robert E. Rudd,R. F. Smith,Matthew Suggit,Damian Swift,F. Tavella,B. A. Remington,J. S. Wark	2019	10
4	Femtosecond X-Ray Diffraction Studies of the Reversal of the Microstructural Effects of Plastic Deformation during Shock Release of Tantalum Physical Review Letters ·Marcin Sliwa,D. McGonegle,C. E. Wehrenberg,C. A. Bolme,P. G. Heighway,Andrew Higginbotham,Amy Lazicki,Hae Ja Lee,Bob Nagler,H. S. Park,Robert E. Rudd,Matthew Suggit,Damian Swift,F. Tavella,Luis A. Zepeda-Ruiz,B. A. Remington,J. S. Wark	2018	55
5	Phase transition lowering in dynamically compressed silicon Nature Physics ·E. E. McBride,A. Krygier,A. Ehnes,Eric Galtier,M. Harmand,Zuzana Konôpková,Hae Ja Lee,Hanns‐Peter Liermann,Bob Nagler,A. Pelka,Melanie Rödel,Andreas Schropp,R. F. Smith,C. Spindloe,Damian Swift,F. Tavella,S. Toleikis,T. Tschentscher,J. S. Wark,Andrew Higginbotham	2018	82
6	X-ray diffraction measurements of plasticity in shock-compressed vanadium in the region of 10–70 GPa Journal of Applied Physics ·J. M. Foster,A. J. Comley,G. S. Case,Philip Avraam,S. D. Rothman,Andrew Higginbotham,E. Floyd,E. T. Gumbrell,James J. D. Luis,D. McGonegle,N. T. Park,L. J. Peacock,Chris Poulter,Matthew Suggit,J. S. Wark	2017	17
7	Phase transitions in shock compressed bismuth identified using single photon energy dispersive X-ray diffraction (SPEDX) Journal of Physics Conference Series ·R. Briggs,MJ Suggit,M. G. Gorman,A. L. Coleman,R. Heathcote,Andrew Higginbotham,Shamim Patel,J. S. Wark,M. I. McMahon	2017	2
8	Density measurements of dynamically-compressed, melting phase silicon via simultaneous in-situ x-ray diffraction and x-ray contrast imaging using the LCLS x-ray free electron laser at MEC Bulletin of the American Physical Society ·Shaughnessy Brown,Hae Ja Lee,Bob Nagler,Eric Galtier,Zhou Xing,A. E. Gleason,E. Granados,Inhhyuk Nam,Frank Seiboth,Andreas Schropp,Andrew Higginbotham,Akel Hashim,Brice Arnold,Alan Fry	2016	1
9	Inelastic response of silicon to shock compression Scientific Reports ·Andrew Higginbotham,Paul G. Stubley,A. J. Comley,J. H. Eggert,J. M. Foster,D. H. Kalantar,D. McGonegle,Shamim Patel,L. J. Peacock,S. D. Rothman,R. F. Smith,Matthew Suggit,J. S. Wark	2016	20
10	Direct Observation of Melting in Shock-Compressed Bismuth With Femtosecond X-ray Diffraction Physical Review Letters ·M. G. Gorman,R. Briggs,E. E. McBride,Andrew Higginbotham,Brice Arnold,J. H. Eggert,D. E. Fratanduono,Eric Galtier,Amy Lazicki,Hae Ja Lee,Hanns‐Peter Liermann,Bob Nagler,André Rothkirch,R. F. Smith,Damian Swift,G. W. Collins,J. S. Wark,M. I. McMahon	2015	50
11	Imaging Shock Waves in Diamond with Both High Temporal and Spatial Resolution at an XFEL Scientific Reports ·Andreas Schropp,Robert Hoppe,V.A. Meier,Jens Patommel,Frank Seiboth,Y. Ping,D. G. Hicks,Martha A. Beckwith,G. W. Collins,Andrew Higginbotham,J. S. Wark,Hae Ja Lee,Bob Nagler,Eric Galtier,Brice Arnold,U. Zastrau,Jerome Hastings,Christian G. Schroer	2015	66
12	Simulations of in situ x-ray diffraction from uniaxially compressed highly textured polycrystalline targets Journal of Applied Physics ·D. McGonegle,Despina Milathianaki,B. A. Remington,J. S. Wark,Andrew Higginbotham	2015	16
13	Strain anisotropy and shear strength of shock compressed tantalum measured from in-situ Laue diffraction University of North Texas Digital Library (University of North Texas) ·Christopher Wehrenberg,Matt Terry,Brian Maddox,A. J. Comley,Hyesook Park,Shon Prisbrey,J. Hawreliak,J. S. Wark,Andrew Higginbotham,B. A. Remington	2013	1
14	Femtosecond Visualization of Lattice Dynamics in Shock-Compressed Matter Science ·Despina Milathianaki,Sébastien Boutet,Garth J. Williams,Andrew Higginbotham,Daniel Ratner,A. E. Gleason,M. Messerschmidt,M. Seibert,Damian Swift,Ph. Hering,J. Robinson,William E. White,J. S. Wark	2013	139
15	Strength of Shock-Loaded Single-Crystal Tantalum [100] Determined usingIn SituBroadband X-Ray Laue Diffraction Physical Review Letters ·A. J. Comley,Brian Maddox,Robert E. Rudd,Shon Prisbrey,J. Hawreliak,Daniel Orlikowski,Steven C. Peterson,Joe H. Satcher,A. Elsholz,H-S Park,B. A. Remington,N. Bazin,J. M. Foster,Peter W. Graham,N. Park,P. A. Rosen,Stephen Rothman,Andrew Higginbotham,Matthew Suggit,J. S. Wark	2013	56
16	Nanosecond white-light Laue diffraction measurements of dislocation microstructure in shock-compressed single-crystal copper Nature Communications ·Matthew Suggit,Andrew Higginbotham,J. Hawreliak,Gabriele Mogni,Giles Kimminau,P. Dunne,A. J. Comley,Nigel Park,B. A. Remington,J. S. Wark	2012	42
17	Simulations of copper single crystals subjected to rapid shear Journal of Applied Physics ·Andrew Higginbotham,Eduardo M. Bringa,Jaime Marian,Nigel Park,Matthew Suggit,J. S. Wark	2011	15
18	The strength of single crystal copper under uniaxial shock compression at 100 GPa Journal of Physics Condensed Matter ·William J. Murphy,Andrew Higginbotham,Giles Kimminau,B. Barbrel,Eduardo M. Bringa,J. Hawreliak,R. Kodama,M. Kœnig,W. McBarron,Marc A. Meyers,Bob Nagler,Norimasa Ozaki,N Park,B. A. Remington,S. D. Rothman,S. M. Vinko,T. Whitcher,J. S. Wark	2010	82
19	Molecular dynamics simulations of the Debye-Waller effect in shocked copper Physical Review B ·William J. Murphy,Andrew Higginbotham,J. S. Wark,Nigel Park	2008	10
20	Analysis of the x-ray diffraction signal for theα−ϵtransition in shock-compressed iron: Simulation and experiment Physical Review B ·J. Hawreliak,J. D. Colvin,J. H. Eggert,D. H. Kalantar,H. E. Lorenzana,J. S. Stölken,Huw M. L. Davies,Timothy C. Germann,Brad Lee Holian,Kai Kadau,P. S. Lomdahl,Andrew Higginbotham,K. Rosolanková,J. Sheppard,J. S. Wark	2006	112

About Andrew Higginbotham

Andrew Higginbotham is a scholar working on Geophysics, Structural Biology and Nuclear and High Energy Physics, having authored 40 papers that have together received 1.4k indexed citations. Recurring topics across this work include High-pressure geophysics and materials (32 papers), Diamond and Carbon-based Materials Research (11 papers), High-Velocity Impact and Material Behavior (11 papers), Laser-Plasma Interactions and Diagnostics (9 papers), Metal and Thin Film Mechanics (7 papers), Microstructure and mechanical properties (7 papers), Ion-surface interactions and analysis (5 papers) and Advanced X-ray Imaging Techniques (5 papers). The work is most often cited by research in Structural Biology (154 citations), Geophysics (648 citations) and Radiation (322 citations). Andrew Higginbotham has collaborated with scholars based in United Kingdom, United States and Argentina. Frequent co-authors include J. S. Wark, J. Hawreliak, Bob Nagler, Nigel Park, Matthew Suggit, M. Messerschmidt, Garth J. Williams, Eduardo M. Bringa, B. A. Remington and Damian Swift. Their work appears in journals such as Science, Physical Review Letters and Nature Communications.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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