2026 Matthew J. Kramer: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	73	3830	3706	1047	985	593	20307

Overview

Matthew J. Kramer is affiliated with Ames Laboratory in the United States. Their research spans multiple fields, primarily focusing on physics, materials science, and engineering.

The main fields of study in their work include:

Physics and Astronomy
Materials Science
Engineering

Within these areas, key subfields of study are:

Atomic and Molecular Physics, and Optics
Electronic, Optical and Magnetic Materials
Mechanical Engineering
Materials Chemistry
Condensed Matter Physics

Their research covers a variety of scientific topics, notably:

Magnetic Properties of Alloys
Quantum and electron transport phenomena
Magnetic properties of thin films
Physics of Superconductivity and Magnetism
High Entropy Alloys Studies
Metallic Glasses and Amorphous Alloys
High-Temperature Coating Behaviors

Frequent co-authors collaborating with them include:

Lin Zhou (18 publications)
Cameron Kopas (12 publications)
Jin-Su Oh (11 publications)
Anna Grassellino (10 publications)
Alexander Romanenko (9 publications)

They have published extensively in several venues, with notable recurrent publication outlets such as:

arXiv (Cornell University) - 10 publications
Acta Materialia - 7 publications
SSRN Electronic Journal - 5 publications
IEEE Transactions on Magnetics - 3 publications
npj Computational Materials - 2 publications

Recent significant papers include:

"Subsurface Cooling Rates and Microstructural Response during Laser Based Metal Additive Manufacturing" (2020), published in Scientific Reports
"Systematic improvements in transmon qubit coherence enabled by niobium surface encapsulation" (2024), published in npj Quantum Information
"Near net shape fabrication of anisotropic Fe-6.5%Si soft magnetic materials" (2020), published in Acta Materialia
"Design of refractory multi-principal-element alloys for high-temperature applications" (2023), published in npj Computational Materials
"Effects of Solidification Cooling Rates on Microstructures and Physical Properties of Fe-6.5%Si Alloys" (2020), published in Acta Materialia

Best Publications

Highly optimized embedded-atom-method potentials for fourteen fcc metals

H. W. Sheng;M. J. Kramer;A. Cadien;T. Fujita

609
Citations
Current progress and future challenges in rare-earth-free permanent magnets

Jun Cui;Jun Cui;Matthew J. Kramer;Matthew J. Kramer;Lin Zhou;Fei Liu

584
Citations
Analysis of semi-empirical interatomic potentials appropriate for simulation of crystalline and liquid Al and Cu

M I. Mendelev;M J. Kramer;Chandler A. Becker;M Asta

559
Citations
Development of suitable interatomic potentials for simulation of liquid and amorphous Cu–Zr alloys

M.I. Mendelev;M.J. Kramer;R.T. Ott;D.J. Sordelet

466
Citations
Using atomistic computer simulations to analyze x-ray diffraction data from metallic glasses

M. I. Mendelev;D. J. Sordelet;M. J. Kramer

400
Citations
Fatigue-resistant high-performance elastocaloric materials made by additive manufacturing

Huilong Hou;Emrah Simsek;Tao Ma;Nathan S. Johnson

398
Citations
Cerium: An Unlikely Replacement of Dysprosium in High Performance Nd–Fe–B Permanent Magnets

Arjun K. Pathak;Mahmud Khan;Karl A. Gschneidner;Karl A. Gschneidner;Ralph W. McCallum

381
Citations
Prospects for Non-Rare Earth Permanent Magnets for Traction Motors and Generators

M. J. Kramer;R. W. McCallum;I. A. Anderson;S. Constantinides

373
Citations
Practical Aspects of Modern and Future Permanent Magnets

R.W. McCallum;L. H. Lewis;Ralph Skomski;M. J. Kramer

315
Citations
On-the-fly machine-learning for high-throughput experiments: search for rare-earth-free permanent magnets

Aaron Gilad Kusne;Aaron Gilad Kusne;Tieren Gao;Apurva Mehta;Liqin Ke

309
Citations
Structural heterogeneity and medium-range order in Zr x Cu 100 − x metallic glasses

Maozhi Li;Maozhi Li;C. Z. Wang;S. G. Hao;M. J. Kramer

301
Citations
Nanoscale structure and structural relaxation in Zr50Cu45Al5 bulk metallic glass.

Jinwoo Hwang;Z. H. Melgarejo;Y. E. Kalay;I. Kalay

251
Citations
Boron-doped molybdenum silicides for structural applications

Mufit Akinc;Mitchell K. Meyer;Matthew J. Kramer;Andrew J. Thom

235
Citations
Hole filling, charge transfer and superconductivity in Nd1+xBa2−xCu3O7+δ

M.J. Kramer;S.I. Yoo;R.W. McCallum;W.B. Yelon

223
Citations
Architecture and magnetism of alnico

Lin Zhou;M. K. Miller;Ping Lu;Liqin Ke

223
Citations
Processing and mechanical properties of a molybdenum silicide with the composition Mo–12Si–8.5B (at.%)

Joachim H Schneibel;M.J Kramer;Ö Ünal;Richard N Wright

190
Citations
A Mo–Si–B intermetallic alloy with a continuous α-Mo matrix

J.H Schneibel;M.J Kramer;D.S Easton

188
Citations
Nature of the cubic to rhombohedral structural transformation in (AgSbTe2)15(GeTe)85 thermoelectric material

B. A. Cook;M. J. Kramer;X. Wei;J. L. Harringa

184
Citations
Compressive creep behavior of Mo5Si3 with the addition of boron

Mitchell K. Meyer;Matthew J. Kramer;Mufit Akinca

178
Citations
Development of interatomic potentials appropriate for simulation of liquid and glass properties of NiZr2 alloy

M.I. Mendelev;M.J. Kramer;S.G. Hao;K.M. Ho

171
Citations
Controlled Anisotropic Growth of Co‐Fe‐P from Co‐Fe‐O Nanoparticles

Adriana Mendoza-Garcia;Huiyuan Zhu;Huiyuan Zhu;Yongsheng Yu;Yongsheng Yu;Qing Li

161
Citations