Please use this identifier to cite or link to this item: http://localhost/handle/Hannan/717022
Title: Reversal Time of Jump-Noise Dynamics for Large Nucleation
Other Titles: IEEE Transactions on Magnetics
Authors: Arun Parthasarathy|Shaloo Rakheja
subject: magnetization reversal|Jump-noise|large nucleation
Year: -1-Uns- -1
Abstract: The jump-noise is a phenomenological stochastic process used to model the thermal fluctuation of magnetization in nanomagnets. In this paper, the large nucleation regime of jump-noise dynamics is studied, and its reversal time is characterized from Monte Carlo simulations and analysis. Results show that the reversal time of jump-noise dynamics for large nucleation is asymptotically equal to the time constant associated with a single jump-noise scattering event from the energy minimum in the energy landscape of the magnetization. The reversal time for large nucleation depends linearly on the height of the energy barrier for large barriers. The significance of the large nucleation regime of jump-noise dynamics to phenomenologically explain the magnetoelectric switching of antiferromagnetic order parameter is also prospected.
URI: http://localhost/handle/Hannan/717022
ISBN: 0018-9464
volume: Volume
issue: Issue
Appears in Collections:New Ieee 2019

Files in This Item:
File Description SizeFormat 
08506420.pdf402.78 kBAdobe PDFThumbnail
Preview File
Title: Reversal Time of Jump-Noise Dynamics for Large Nucleation
Other Titles: IEEE Transactions on Magnetics
Authors: Arun Parthasarathy|Shaloo Rakheja
subject: magnetization reversal|Jump-noise|large nucleation
Year: -1-Uns- -1
Abstract: The jump-noise is a phenomenological stochastic process used to model the thermal fluctuation of magnetization in nanomagnets. In this paper, the large nucleation regime of jump-noise dynamics is studied, and its reversal time is characterized from Monte Carlo simulations and analysis. Results show that the reversal time of jump-noise dynamics for large nucleation is asymptotically equal to the time constant associated with a single jump-noise scattering event from the energy minimum in the energy landscape of the magnetization. The reversal time for large nucleation depends linearly on the height of the energy barrier for large barriers. The significance of the large nucleation regime of jump-noise dynamics to phenomenologically explain the magnetoelectric switching of antiferromagnetic order parameter is also prospected.
URI: http://localhost/handle/Hannan/717022
ISBN: 0018-9464
volume: Volume
issue: Issue
Appears in Collections:New Ieee 2019

Files in This Item:
File Description SizeFormat 
08506420.pdf402.78 kBAdobe PDFThumbnail
Preview File
Title: Reversal Time of Jump-Noise Dynamics for Large Nucleation
Other Titles: IEEE Transactions on Magnetics
Authors: Arun Parthasarathy|Shaloo Rakheja
subject: magnetization reversal|Jump-noise|large nucleation
Year: -1-Uns- -1
Abstract: The jump-noise is a phenomenological stochastic process used to model the thermal fluctuation of magnetization in nanomagnets. In this paper, the large nucleation regime of jump-noise dynamics is studied, and its reversal time is characterized from Monte Carlo simulations and analysis. Results show that the reversal time of jump-noise dynamics for large nucleation is asymptotically equal to the time constant associated with a single jump-noise scattering event from the energy minimum in the energy landscape of the magnetization. The reversal time for large nucleation depends linearly on the height of the energy barrier for large barriers. The significance of the large nucleation regime of jump-noise dynamics to phenomenologically explain the magnetoelectric switching of antiferromagnetic order parameter is also prospected.
URI: http://localhost/handle/Hannan/717022
ISBN: 0018-9464
volume: Volume
issue: Issue
Appears in Collections:New Ieee 2019

Files in This Item:
File Description SizeFormat 
08506420.pdf402.78 kBAdobe PDFThumbnail
Preview File