Andrew Christianson Research And Citations – When it comes to groundbreaking research in the field of quantum matter, one name stands out: Dr. Andrew Christianson. As a Distinguished Staff Scientist, Dr. Christianson has made significant contributions to our understanding of quantum materials and their properties. His expertise and passion for exploring the mysteries of quantum matter have led to numerous groundbreaking publications and research projects. In this article, we will delve into Dr. Christianson’s remarkable career, his notable contributions to the field, and the impact of his research on the scientific community.
Early Life and Education
Dr. Andrew Christianson’s journey in the world of science began with a strong interest in physics from an early age. Growing up, he was fascinated by the fundamental laws that govern the universe and was determined to unravel its mysteries. This passion led him to pursue a Bachelor’s Degree in Physics from a renowned university, where he excelled in his studies and demonstrated exceptional aptitude for research.
Path to Quantum Matter Research
After completing his undergraduate studies, Dr. Christianson’s curiosity drew him towards the emerging field of quantum matter research. He recognized the potential of quantum materials to revolutionize various industries, including computing, energy, and telecommunications. Motivated by the immense possibilities that quantum matter held, he decided to specialize in this field for his postgraduate studies.
Contributions to Quantum Matter Research
Throughout his illustrious career, Dr. Christianson has made remarkable contributions to the field of quantum matter research. His work has focused on understanding the behavior of quantum materials beyond the traditional unit cell, pushing the boundaries of our knowledge and opening up new avenues for exploration.
One of his notable research projects is the BES funded program on “Understanding Quantum Matter Beyond the Unit Cell.” This groundbreaking initiative aims to unravel the complex quantum properties of materials and explore their potential applications. By investigating quantum magnetism in frustrated square lattice oxyhalides such as YbBi2IO4 and YbBi2ClO4, Dr. Christianson and his team have shed light on the intricate interactions between magnetic moments and lattice structures.
Noteworthy Publications
Dr. Christianson’s work is widely recognized and respected in the scientific community. He has published numerous influential papers that have advanced our understanding of quantum materials. Some of his significant publications include:
- “Quantum magnetism in the frustrated square lattice oxyhalides YbBi2IO4 and YbBi2ClO4” – Published in Physical Review B, January 2024. This paper explores the quantum magnetism in frustrated square lattice oxyhalides and provides valuable insights into their unique properties.
- “Field-tuned quantum renormalization of spin dynamics in the honeycomb lattice Heisenberg antiferromagnet YbCl3…” – Published in Communications Physics, August 2023. Dr. Christianson’s research in this paper investigates the field-tuned quantum renormalization of spin dynamics in the honeycomb lattice Heisenberg antiferromagnet YbCl3, offering a deeper understanding of spin interactions.
- “Structure and magnetism of the triangular lattice material YbBO3” – Published in Journal of Physics: Condensed Matter, July 2023. This publication explores the structure and magnetism of YbBO3, a triangular lattice material, and highlights its potential applications in various fields.
- “Anisotropic magnetism of the Shastry-Sutherland lattice material BaNd2PtO5…” – Published in Physical Review Materials, July 2023. Dr. Christianson’s research in this paper investigates the anisotropic magnetism of the Shastry-Sutherland lattice material BaNd2PtO5, providing valuable insights into its unique magnetic properties.
- “Field-induced spin level crossings within a quasi-XY antiferromagnetic state in Ba2FeSi2O7” – Published in Physical Review B, April 2023. This publication explores the field-induced spin level crossings within a quasi-XY antiferromagnetic state in Ba2FeSi2O7, offering new perspectives on spin dynamics.
Current Research and Future Endeavors
Dr. Christianson’s dedication to advancing the field of quantum matter research shows no signs of slowing down. He continues to lead groundbreaking research projects and collaborate with esteemed scientists from around the world to unravel the mysteries of quantum materials. His current focus includes investigating novel quantum phenomena and developing practical applications for quantum technologies.
Recognition and Affiliations
Dr. Andrew Christianson’s contributions to the field of quantum matter research have been widely recognized and celebrated. His expertise and exceptional research capabilities have earned him prestigious affiliations with renowned scientific organizations and institutions. He is an active member of the Physical Sciences Directorate at Oak Ridge National Laboratory, where he leads the Correlated Electron Materials Group. Dr. Christianson’s commitment to excellence in research has garnered him respect and admiration from his peers.
Citations
TITLE |
CITED BY
|
YEAR |
---|---|---|
Unconventional superconductivity in Ba0.6K0.4Fe2As2 from inelastic neutron scattering
AD Christianson, EA Goremychkin, R Osborn, S Rosenkranz, …
Nature 456 (7224), 930-932
|
754 | 2008 |
Magnetism in Fe-based superconductors
MD Lumsden, AD Christianson
Journal of Physics: Condensed Matter 22 (20), 203203
|
456 | 2010 |
Phase transitions in LaFeAsO: Structural, magnetic, elastic, and transport properties, heat capacity and Mössbauer spectra
MA McGuire, AD Christianson, AS Sefat, BC Sales, MD Lumsden, R Jin, …
Physical Review B 78 (9), 094517
|
380 | 2008 |
Two-dimensional resonant magnetic excitation in
MD Lumsden, AD Christianson, D Parshall, MB Stone, SE Nagler, …
Physical Review Letters 102 (10), 107005
|
365 | 2009 |
Magnetic ground state of FeSe
Q Wang, Y Shen, B Pan, X Zhang, K Ikeuchi, K Iida, AD Christianson, …
Nature communications 7 (1), 12182
|
209 | 2016 |
Static and dynamic magnetism in underdoped superconductor BaFe 1.92 Co 0.08 As 2
AD Christianson, MD Lumsden, SE Nagler, GJ MacDougall, MA McGuire, …
Physical review letters 103 (8), 087002
|
202 | 2009 |
Evolution of spin excitations into the superconducting state in FeTe1−xSex
MD Lumsden, AD Christianson, EA Goremychkin, SE Nagler, HA Mook, …
Nature physics 6 (3), 182-186
|
193 | 2010 |
Three-Dimensional Magnetic Correlations in Multiferroic
AD Christianson, MD Lumsden, M Angst, Z Yamani, W Tian, R Jin, …
Physical Review Letters 100 (10), 107601
|
169 | 2008 |
Charge Order in : Antiferroelectric Ground State and Coupling to Magnetism
M Angst, RP Hermann, AD Christianson, MD Lumsden, C Lee, …
Physical review letters 101 (22), 227601
|
164 | 2008 |
Phonon self-energy and origin of anomalous neutron scattering spectra in SnTe and PbTe thermoelectrics
CW Li, O Hellman, J Ma, AF May, HB Cao, X Chen, AD Christianson, …
Physical review letters 112 (17), 175501
|
153 | 2014 |
Charge order, dynamics, and magnetostructural transition in multiferroic LuFe 2 O 4
XS Xu, M Angst, TV Brinzari, RP Hermann, JL Musfeldt, AD Christianson, …
Physical review letters 101 (22), 227602
|
148 | 2008 |
Magnetically driven metal-insulator transition in NaOsO 3
S Calder, VO Garlea, DF McMorrow, MD Lumsden, MB Stone, JC Lang, …
Physical review letters 108 (25), 257209
|
147 | 2012 |
Spin Waves in the Magnetically Ordered Iron Chalcogenide
OJ Lipscombe, GF Chen, C Fang, TG Perring, DL Abernathy, …
Physical Review Letters 106 (5), 057004
|
129 | 2011 |
Anisotropy of thermal conductivity and possible signature of the Fulde-Ferrell-Larkin-Ovchinnikov state in Ce Co In 5
C Capan, A Bianchi, R Movshovich, AD Christianson, A Malinowski, …
Physical Review B 70 (13), 134513
|
125 | 2004 |
Magnetism and electronic structure of La 2 ZnIrO 6 and La 2 MgIrO 6: Candidate J eff= 1 2 Mott insulators
G Cao, A Subedi, S Calder, JQ Yan, J Yi, Z Gai, L Poudel, DJ Singh, …
Physical Review B 87 (15), 155136
|
104 | 2013 |
Giant electromechanical coupling of relaxor ferroelectrics controlled by polar nanoregion vibrations
ME Manley, DL Abernathy, R Sahul, DE Parshall, JW Lynn, …
Science advances 2 (9), e1501814
|
100 | 2016 |
Phonon Density of States of
AD Christianson, MD Lumsden, O Delaire, MB Stone, DL Abernathy, …
Physical review letters 101 (15), 157004
|
95 | 2008 |
Crystalline electric field effects in Ce M In 5 (M= Co, Rh, Ir): Superconductivity and the influence of Kondo spin fluctuations
AD Christianson, ED Bauer, JM Lawrence, PS Riseborough, NO Moreno, …
Physical Review B 70 (13), 134505
|
94 | 2004 |
Competing magnetic ground states in nonsuperconducting Ba (Fe 1− x Cr x) 2 As 2 as seen via neutron diffraction
K Marty, AD Christianson, CH Wang, M Matsuda, H Cao, LH VanBebber, …
Physical Review B 83 (6), 060509
|
90 | 2011 |
Inelastic neutron scattering study of –acetate
Y Zhong, MP Sarachik, JR Friedman, RA Robinson, TM Kelley, H Nakotte, …
Journal of applied physics 85 (8), 5636-5638
|
84 | 1999 |
Conclusion
In conclusion, Dr. Andrew Christianson is a distinguished scientist whose research in the field of quantum matter has made significant contributions to our understanding of these complex materials. His passion, expertise, and dedication to advancing the frontiers of science have propelled him to the forefront of quantum matter research. Through his groundbreaking publications and influential research projects, Dr. Christianson continues to shape the future of quantum technologies and inspire the next generation of scientists.