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Research Interests
Our broad research program is oriented towards studying properties of novel materials and devices, with a particular emphasis in understanding the organizational principles leading to novel states of matter.
We are particularly interested in physical phenomena whose understanding is intellectually challenging but which could have an enormous economical impact if observed at room temperature, such as high temperature superconductivity (funded by the Office of Basic Energy Sciences - Department of Energy) and/or multiferroiticity.
The observation of Dirac Fermions in Graphene (leading to the 2010 Nobel prize in Physics) and more recently of Dirac magnetic monopoles in dipolar spin-ices, demonstrates that fundamental physical concepts/entities normally associated with high energy physics, can also be effectively studied in matter when in its solid state. We are actively engaged in these beautiful fields of research.
Other major areas of research within our group include novel and unconventional magnetic states of matter such as Bose-Einstein condensates of spin degrees of freedom, or the fluctuating ground states of geometrically frustrated magnetic systems, or the so-called spin-liquids.
A student working in our group is expected to learn a broad array of experimental techniques, ranging from sample synthesis, to high magnetic field experimentation to spectroscopic techniques such as neutron and x-ray scattering or nuclear magnetic resonance. She/he is also expected to be involved in active collaborations with both theorists and experimentalists belonging either to the NHMFL or to external/international institutions, and in this way define her/his own research path based on personal interests.
Our broad research program is oriented towards studying properties of novel materials and devices, with a particular emphasis in understanding the organizational principles leading to novel states of matter.
We are particularly interested in physical phenomena whose understanding is intellectually challenging but which could have an enormous economical impact if observed at room temperature, such as high temperature superconductivity (funded by the Office of Basic Energy Sciences - Department of Energy) and/or multiferroiticity.
The observation of Dirac Fermions in Graphene (leading to the 2010 Nobel prize in Physics) and more recently of Dirac magnetic monopoles in dipolar spin-ices, demonstrates that fundamental physical concepts/entities normally associated with high energy physics, can also be effectively studied in matter when in its solid state. We are actively engaged in these beautiful fields of research.
Other major areas of research within our group include novel and unconventional magnetic states of matter such as Bose-Einstein condensates of spin degrees of freedom, or the fluctuating ground states of geometrically frustrated magnetic systems, or the so-called spin-liquids.
A student working in our group is expected to learn a broad array of experimental techniques, ranging from sample synthesis, to high magnetic field experimentation to spectroscopic techniques such as neutron and x-ray scattering or nuclear magnetic resonance. She/he is also expected to be involved in active collaborations with both theorists and experimentalists belonging either to the NHMFL or to external/international institutions, and in this way define her/his own research path based on personal interests.
研究兴趣
论文共 516 篇作者统计合作学者相似作者
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Nano lettersno. 13 (2024): 3851-3857
Cell Reports Physical Scienceno. 2 (2024): 101816
npj Quantum Materialsno. 1 (2023): 1-11
PHYSICAL REVIEW MATERIALSno. 7 (2023)
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Jamila Djafari,Frederico Duarte, Javier Fernandez-Loderio, Adrian Fernandez-Loderio,Hugo Santos,Eva Bladt,Sara Bals,Aikaterini Flessa Savvidou,Luis Balicas,Benito Rodriguez-Gonz,Alcindo Aparecido Dos Santos,Jose Luis Capelo-Martinez,
DYES AND PIGMENTS (2023): 111754-111754
NATURE COMMUNICATIONSno. 1 (2023): 5812-5812
arXiv (Cornell University) (2023)
M. Cabrera-Baez, Kamilla V. R. A. Silva, P. R. T. Ribeiro, Danilo Ratkovski, E. L. T. França, A. Flessa-Savvidou, B. Casas, T. Siegrist,Luis Balicas, S. M. Rezende, F.L.A. Machado
Physical reviewno. 14 (2023)
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Brian W Casas,Yue Li,Alex Moon,Yan Xin,Conor McKeever,Juan Macy, Amanda K Petford-Long,Charudatta M Phatak,Elton J G Santos,Eun Sang Choi,Luis Balicas
arxiv(2023)
Brian Casas, Yue L,Alex Moon,Yan Xin,Conor McKeever,Juan Macy, Amanda K. Petford‐Long,Charudatta Phatak,Elton J. G. Santos,Eun Sang Choi,Luis Balicas
Advanced Materialsno. 17 (2023)
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