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Title: On-the-fly machine-learning for high-throughput experiments: search for rare-earth-free permanent magnets

Abstract

Advanced materials characterization techniques with ever-growing data acquisition speed and storage capabilities represent a challenge in modern materials science, and new procedures to quickly assess and analyze the data are needed. Machine learning approaches are effective in reducing the complexity of data and rapidly homing in on the underlying trend in multi-dimensional data. Here, we show that by employing an algorithm called the mean shift theory to a large amount of diffraction data in high-throughput experimentation, one can streamline the process of delineating the structural evolution across compositional variations mapped on combinatorial libraries with minimal computational cost. Data collected at a synchrotron beamline are analyzed on the fly, and by integrating experimental data with the inorganic crystal structure database (ICSD), we can substantially enhance the accuracy in classifying the structural phases across ternary phase spaces. We have used this approach to identify a novel magnetic phase with enhanced magnetic anisotropy which is a candidate for rare-earth free permanent magnet.

Authors:
 [1];  [1];  [2];  [3];  [3];  [3];  [3];  [3];  [3];  [1];  [1]
  1. University of Maryland
  2. SLAC National Accelerator Laboratory
  3. Ames Laboratory
Publication Date:
Research Org.:
Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Oak Ridge Leadership Computing Facility (OLCF); Ames Laboratory (AMES), Ames, IA (United States)
Sponsoring Org.:
USDOE Office of Science (SC)
OSTI Identifier:
1166896
Report Number(s):
IS-J 8483
Journal ID: ISSN 2045-2322
DOE Contract Number:  
DE-AC02-07CH11358
Resource Type:
Journal Article
Journal Name:
Scientific Reports
Additional Journal Information:
Journal Volume: 4; Journal ID: ISSN 2045-2322
Country of Publication:
United States
Language:
English
Subject:
36 MATERIALS SCIENCE

Citation Formats

Kusne, Aaron Gilad, Gao, Tieren, Mehta, Apurva, Ke, Liqin, Nguyen, Manh Cuong, Ho, Kai-Ming, Antropov, Vladimir, Wang, Cai-Zhuang, Kramer, Matthew J, Long, Christian, and Takeuchi, Ichiro. On-the-fly machine-learning for high-throughput experiments: search for rare-earth-free permanent magnets. United States: N. p., 2014. Web. doi:10.1038/srep06367.
Kusne, Aaron Gilad, Gao, Tieren, Mehta, Apurva, Ke, Liqin, Nguyen, Manh Cuong, Ho, Kai-Ming, Antropov, Vladimir, Wang, Cai-Zhuang, Kramer, Matthew J, Long, Christian, & Takeuchi, Ichiro. On-the-fly machine-learning for high-throughput experiments: search for rare-earth-free permanent magnets. United States. doi:10.1038/srep06367.
Kusne, Aaron Gilad, Gao, Tieren, Mehta, Apurva, Ke, Liqin, Nguyen, Manh Cuong, Ho, Kai-Ming, Antropov, Vladimir, Wang, Cai-Zhuang, Kramer, Matthew J, Long, Christian, and Takeuchi, Ichiro. Mon . "On-the-fly machine-learning for high-throughput experiments: search for rare-earth-free permanent magnets". United States. doi:10.1038/srep06367.
@article{osti_1166896,
title = {On-the-fly machine-learning for high-throughput experiments: search for rare-earth-free permanent magnets},
author = {Kusne, Aaron Gilad and Gao, Tieren and Mehta, Apurva and Ke, Liqin and Nguyen, Manh Cuong and Ho, Kai-Ming and Antropov, Vladimir and Wang, Cai-Zhuang and Kramer, Matthew J and Long, Christian and Takeuchi, Ichiro},
abstractNote = {Advanced materials characterization techniques with ever-growing data acquisition speed and storage capabilities represent a challenge in modern materials science, and new procedures to quickly assess and analyze the data are needed. Machine learning approaches are effective in reducing the complexity of data and rapidly homing in on the underlying trend in multi-dimensional data. Here, we show that by employing an algorithm called the mean shift theory to a large amount of diffraction data in high-throughput experimentation, one can streamline the process of delineating the structural evolution across compositional variations mapped on combinatorial libraries with minimal computational cost. Data collected at a synchrotron beamline are analyzed on the fly, and by integrating experimental data with the inorganic crystal structure database (ICSD), we can substantially enhance the accuracy in classifying the structural phases across ternary phase spaces. We have used this approach to identify a novel magnetic phase with enhanced magnetic anisotropy which is a candidate for rare-earth free permanent magnet.},
doi = {10.1038/srep06367},
journal = {Scientific Reports},
issn = {2045-2322},
number = ,
volume = 4,
place = {United States},
year = {2014},
month = {9}
}

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