Your search keyword '"Reichanadter, Jonathan T."' showing total 6 results

1. Spontaneous Conducting Boundary Channels in 1T-TaS$_{2}$

Author

Devidas, T. R., Reichanadter, Jonathan T., Haley, Shannon C., Sterenberg, Matan, Moore, Joel E., Neaton, Jeffrey B., Analytis, James G., Kalisky, Beena, and Maniv, Eran

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Materials that transition between metal and insulator, the two opposing states that distinguish all solids, are fascinating because they underlie many mysteries in the physics of the solid state. In 1T-TaS$_{2}$, the metal-insulator transition is linked to a series of metastable states of a chiral charge density wave whose basic nature is still an open question. In this work, we show that pulses of current through these materials create current-carrying boundary channels that distinguish the metallic and insulating states. We demonstrate electrical control of these channels' properties, suggesting their formation could be due to the complex interplay of the formation of domain walls and the viscous flow of electrons. Our findings show that physical boundaries play a key role in the properties of the metastable states of the metal-insulator transition, highlighting new possibilities for in-situ electrical design and active manipulation of electrical components.

Published

2024

2. A room temperature polar magnetic metal

Author

Zhang, Hongrui, Shao, Yu-Tsun, Chen, Rui, Chen, Xiang, Susarla, Sandhya, Raftrey, David, Reichanadter, Jonathan T, Caretta, Lucas, Huang, Xiaoxi, Settineri, Nicholas S, Chen, Zhen, Zhou, Jingcheng, Bourret-Courchesne, Edith, Ercius, Peter, Yao, Jie, Fischer, Peter, Neaton, Jeffrey B, Muller, David A, Birgeneau, Robert J, and Ramesh, Ramamoorthy

Subjects

Inorganic Chemistry, Quantum Physics, Chemical Sciences, Physical Sciences, Condensed Matter Physics, MSD-General, MSD-Quantum Materials, Macromolecular and materials chemistry, Materials engineering, Condensed matter physics

Abstract

The emergence of long-range magnetic order in noncentrosymmetric compounds has stimulated interest in the possibility of exotic spin transport phenomena and topologically protected spin textures for applications in next-generation spintronics. Polar magnets, with broken symmetries of spatial inversion and time reversal, usually host chiral spin textures. This work reports on a wurtzite-structure polar magnetic metal, identified as AA′-stacked (Fe0.5Co0.5)5GeTe2, which exhibits a Néel-type skyrmion lattice as well as a Rashba-Edelstein effect at room temperature. Atomic resolution imaging of the structure reveals a structural transition as a function of Co-substitution, leading to the emergence of the polar phase at 50% Co. This discovery reveals an unprecedented layered polar magnetic system for investigating intriguing spin topologies, and it ushers in a promising new framework for spintronics.

Published

2022

3. Room-temperature skyrmion lattice in a layered magnet (Fe0.5Co0.5)5GeTe2

Author

Zhang, Hongrui, Raftrey, David, Chan, Ying-Ting, Shao, Yu-Tsun, Chen, Rui, Chen, Xiang, Huang, Xiaoxi, Reichanadter, Jonathan T, Dong, Kaichen, Susarla, Sandhya, Caretta, Lucas, Chen, Zhen, Yao, Jie, Fischer, Peter, Neaton, Jeffrey B, Wu, Weida, Muller, David A, Birgeneau, Robert J, and Ramesh, Ramamoorthy

Subjects

Quantum Physics, Physical Sciences, Condensed Matter Physics, MSD-General, MSD-Quantum Materials

Abstract

Novel magnetic ground states have been stabilized in two-dimensional (2D) magnets such as skyrmions, with the potential next-generation information technology. Here, we report the experimental observation of a Néel-type skyrmion lattice at room temperature in a single-phase, layered 2D magnet, specifically a 50% Co-doped Fe5GeTe2 (FCGT) system. The thickness-dependent magnetic domain size follows Kittel's law. The static spin textures and spin dynamics in FCGT nanoflakes were studied by Lorentz electron microscopy, variable-temperature magnetic force microscopy, micromagnetic simulations, and magnetotransport measurements. Current-induced skyrmion lattice motion was observed at room temperature, with a threshold current density, jth = 1 × 106 A/cm2. This discovery of a skyrmion lattice at room temperature in a noncentrosymmetric material opens the way for layered device applications and provides an ideal platform for studies of topological and quantum effects in 2D.

Published

2022

4. A room temperature polar ferromagnetic metal

Author

Zhang, Hongrui, Shao, Yu-Tsun, Chen, Rui, Chen, Xiang, Susarla, Sandhya, Reichanadter, Jonathan T., Caretta, Lucas, Huang, Xiaoxi, Settineri, Nicholas S., Chen, Zhen, Zhou, Jingcheng, Bourret-Courchesne, Edith, Ercius, Peter, Yao, Jie, Neaton, Jeffrey B., Muller, David A., Birgeneau, Robert J., and Ramesh, Ramamoorthy

Subjects

Condensed Matter - Materials Science

Abstract

The advent of long-range magnetic order in non-centrosymmetric compounds has stimulated interest in the possibility of exotic spin transport phenomena and topologically protected spin textures for applications in next-generation spintronics. This work reports a novel wurtzite-structure polar magnetic metal, identified as AA'-stacked (Fe0.5Co0.5)5-xGeTe2, which exhibits a Neel-type skyrmion lattice as well as a Rashba-Edelstein effect at room temperature. Atomic resolution imaging of the structure reveals a structural transition as a function of Co-substitution, leading to the polar phase at 50% Co. This discovery reveals an unprecedented layered polar magnetic system for investigating intriguing spin topologies and ushers in a promising new framework for spintronics.

Published

2021

5. Room Temperature Néel-type Skyrmions in a van der Waals Ferromagnet Revealed by Lorentz 4D-STEM

Author

Shao, Yu-Tsun, primary, Zhang, Hongrui, additional, Chen, Rui, additional, Chen, Xiang, additional, Susarla, Sandhya, additional, Reichanadter, Jonathan T, additional, Caretta, Lucas, additional, Huang, Xiaoxi, additional, Settineri, Nicholas S, additional, Chen, Zhen, additional, Zhou, Jingcheng, additional, Bourret-Courchesne, Edith, additional, Ercius, Peter, additional, Yao, Jie, additional, Neaton, Jeffery B, additional, Birgeneau, Robert J, additional, Ramesh, Ramamoorthy, additional, and Muller, David A, additional

Published

2022

6. Room-temperature skyrmion lattice in a layered magnet (Fe0.5Co0.5)5GeTe2.

Author

Hongrui Zhang, Raftrey, David, Ying-Ting Chan, Yu-Tsun Shao, Rui Chen, Xiang Chen, Xiaoxi Huang, Reichanadter, Jonathan T., Dong, Kaichen, Susarla, Sandhya, Caretta, Lucas, Zhen Chen, Jie Yao, Fischer, Peter, Neaton, Jeffrey B., Weida Wu, Muller, David A., Birgeneau, Robert J., and Ramesh, Ramamoorthy

Subjects

*MAGNETS, *SKYRMIONS, *DOMAIN walls (Ferromagnetism), *METALLIC thin films

Abstract

The article presents a study which explores about novel magnetic ground states have been stabilized in two-dimensional (2D) magnets such as skyrmions, with the potential next-generation information technology. It demonstrate the dependence of skyrmion size and stability of the skyrmion lattice as a function of sample thickness, applied magnetic field, and temperature, as well as the current-induced skyrmion formation and motion at room temperature.

Published

2022