Your search keyword '"Zhao, Xuanhan"' showing total 7 results

1. The challenges of measuring spin Seebeck noise

Author

Luo, Renjie, Zhao, Xuanhan, Legvold, Tanner J., Chen, Liyang, Liu, Changjiang, Hong, Deshun, Bhattacharya, Anand, and Natelson, Douglas

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Just as electronic shot noise in driven conductors results from the granularity of charge and the statistical variation in the arrival times of charge carriers, there are predictions for fundamental noise in magnon currents due to angular momentum being carried by discrete excitations. The inverse spin Hall effect as a transduction mechanism to convert spin current into charge current raises the prospect of experimental investigations of such magnon shot noise. Spin Seebeck effect measurements have demonstrated the electrical detection of thermally driven magnon currents and have been suggested as an avenue for accessing spin current fluctuations. Using spin Seebeck structures made from yttrium iron garnet on gadolinium gallium garnet, we demonstrate the technical challenges inherent in such noise measurements. While there is a small increase in voltage noise in the inverse spin Hall detector at low temperatures associated with adding a magnetic field, the dependence on field orientation implies that this is not due to magnon shot noise. We describe theoretical predictions for the expected magnitude of magnon shot noise, highlighting ambiguities that exist. Further, we show that magnon shot noise detection through the standard inverse spin Hall approach is likely impossible due to geometric factors. Implications for future attempts to measure magnon shot noise are discussed., Comment: 23 pages, 3 figures, + 13 pages/11 figures of supplementary material

Published

2023

2. Spin Seebeck effect at low temperatures in the nominally paramagnetic insulating state of vanadium dioxide

Author

Luo, Renjie, Zhao, Xuanhan, Chen, Liyang, Legvold, Tanner J., Navarro, Henry, Schuller, Ivan K., and Natelson, Douglas

Subjects

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

Abstract

The low temperature monoclinic, insulating phase of vanadium dioxide is ordinarily considered nonmagnetic, with dimerized vanadium atoms forming spin singlets, though paramagnetic response is seen at low temperatures. We find a nonlocal spin Seebeck signal in VO2 films that appears below 30 K and which increases with decreasing temperature. The spin Seebeck response has a non-hysteretic dependence on in-plane external magnetic field. This paramagnetic spin Seebeck response is discussed in terms of prior findings on paramagnetic spin Seebeck effects and expected magnetic excitations of the monoclinic ground state., Comment: 11 pages, 3 figures, + 11 pages and 10 figures of supplemental material

Published

2022

3. Room Temperature Magnetic Order in Air-Stable Ultra-Thin Iron Oxide

Author

Yuan, Jiangtan, Balk, Andrew, Guo, Hua, Patel, Sahil, Zhao, Xuanhan, Fang, Qiyi, Natelson, Douglas, Crooker, Scott, and Lou, Jun

Subjects

Condensed Matter - Materials Science

Abstract

Certain two-dimensional (2D) materials exhibit intriguing properties such as valley polarization, ferroelectricity, superconductivity and charge-density waves. Many of these materials can be manually assembled into atomic-scale multilayer devices under ambient conditions, owing to their exceptional chemical stability. Efforts have been made to add a magnetic degree of freedom to these 2D materials via defects, but only local magnetism has been achieved. Only with the recent discoveries of 2D materials supporting intrinsic ferromagnetism have stacked spintronic devices become realistic. Assembling 2D multilayer devices with these ferromagnets under ambient conditions remains challenging due to their sensitivity to environmental degradation, and magnetic order at room temperature is rare in van der Waals materials. Here, we report the growth of air-stable ultra-thin epsilon-phase iron oxide crystals that exhibit magnetic order at room temperature. These crystals require no passivation and can be prepared in large quantity by cost-effective chemical vapor deposition (CVD). We find that the epsilon phase, which is energetically unfavorable and does not form in bulk, can be easily made in 2D down to a seven unit-cell thickness. Magneto-optical Kerr effect (MOKE) magnetometry of individual crystals shows that even at this ultrathin limit the epsilon phase exhibits robust magnetism with coercive fields of hundreds of mT. These measurements highlight the advantages of ultrathin iron oxide as a promising candidate towards air-stable 2D magnetism and integration into 2D spintronic devices.

Published

2018

4. Challenges of measuring spin Seebeck noise

Author

Luo, Renjie, primary, Zhao, Xuanhan, additional, Legvold, Tanner J., additional, Chen, Liyang, additional, Liu, Changjiang, additional, Hong, Deshun, additional, Bhattacharya, Anand, additional, and Natelson, Douglas, additional

Published

2024

5. Spin Seebeck effect at low temperatures in the nominally paramagnetic insulating state of vanadium dioxide

Author

Luo, Renjie, primary, Zhao, Xuanhan, additional, Chen, Liyang, additional, Legvold, Tanner J., additional, Navarro, Henry, additional, Schuller, Ivan K., additional, and Natelson, Douglas, additional

Published

2022

6. Tunneling noise and defects in exfoliated hexagonal boron nitride

Author

Zhao, Xuanhan, primary, Zhou, Panpan, additional, Chen, Liyang, additional, Watanabe, Kenji, additional, Taniguchi, Takashi, additional, and Natelson, Douglas, additional

Published

2019

7. Room-Temperature Magnetic Order in Air-Stable Ultrathin Iron Oxide

Author

Yuan, Jiangtan, primary, Balk, Andrew, additional, Guo, Hua, additional, Fang, Qiyi, additional, Patel, Sahil, additional, Zhao, Xuanhan, additional, Terlier, Tanguy, additional, Natelson, Douglas, additional, Crooker, Scott, additional, and Lou, Jun, additional

Published

2019