Blaine Bush
University of California, Davis
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Publication
Featured researches published by Blaine Bush.
Physical Review B | 2015
C. H. Lin; Kent Shirer; John C. Crocker; Adam Dioguardi; Matthew Lawson; Blaine Bush; P. Klavins; N. J. Curro
We report Nuclear Magnetic Resonance (NMR) data for both the In(1) and In(2) sites in the heavy fermion material CeRhIn
Physical Review B | 2015
Adam Dioguardi; Matthew Lawson; Blaine Bush; John C. Crocker; Kent Shirer; D. M. Nisson; T. Kissikov; Sheng Ran; S. L. Bud'ko; P. C. Canfield; S. Yuan; P. L. Kuhns; Arneil P. Reyes; H. J. Grafe; Nicholas Curro
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Physical Review B | 2017
T. Kissikov; Rajib Sarkar; Matthew Lawson; Blaine Bush; Erik Timmons; M. A. Tanatar; Ruslan Prozorov; Sergey L. Bud'ko; Paul C. Canfield; Rafael M. Fernandes; Wen Fong Goh; Warren E. Pickett; Nicholas Curro
under hydrostatic pressure. The Knight shift data reveal a suppression of the hyperfine coupling to the In(1) site as a function of pressure, and the electric field gradient,
Physical Review B | 2018
Matthew Lawson; Blaine Bush; T. Kissikov; Z. Brubaker; K. R. Shirer; J. R. Jeffries; Sheng Ran; I. Jeon; M. B. Maple; Nicholas Curro
\nu_{\alpha\alpha}
Physical Review B | 2017
K. R. Shirer; Matthew Lawson; T. Kissikov; Blaine Bush; Andrew Gallagher; K. W. Chen; R. E. Baumbach; Nicholas Curro
, at the In(2) site exhibits a change of slope,
Review of Scientific Instruments | 2017
T. Kissikov; R. Sarkar; Blaine Bush; Matthew Lawson; Paul C. Canfield; Nicholas Curro
d\nu_{\alpha\alpha}/dP
Applied Physics Letters | 2017
L. G. Steele; Matthew Lawson; M. Onyszczak; Blaine Bush; Ziwen Mei; Adam P. Dioguardi; J. King; Anna J. Parker; Alexander Pines; S. T. Weir; W. Evans; Kenneth S. Visbeck; Yogesh K. Vohra; N.J. Curro
, at
Bulletin of the American Physical Society | 2013
Blaine Bush; P. Klavins; Matthew Lawson; Kent Shirer; Nicholas Curro
P_{c1} = 1.75
Bulletin of the American Physical Society | 2018
Louis Steele; Matthew Lawson; Michael Onyszczak; Blaine Bush; Ziwen Mei; Adam Dioguardi; Jonathan B. King; Anna J. Parker; Alexander Pines; Samuel T. Weir; William J. Evans; Kenneth S. Visbeck; Yogesh K. Vohra; Nicholas Curro
GPa. These changes to these coupling constants reflect alterations to the electronic structure at the quantum critical point.
Bulletin of the American Physical Society | 2017
Blaine Bush; Lawrence Simon; Aj LaPanta; Nicholas Curro
We present 75As nuclear magnetic resonance spin-lattice and spin-spin relaxation rate data in Ba(Fe1–xCox)2As2 and Ba(Fe1–xCux)2As2 as a function of temperature, doping, and magnetic field. The relaxation curves exhibit a broad distribution of relaxation rates, consistent with inhomogeneous glassy behavior up to 100 K. The doping and temperature response of the width of the dynamical heterogeneity is similar to that of the nematic susceptibility measured by elastoresistance measurements. In this study, we argue that quenched random fields which couple to the nematic order give rise to a nematic glass that is reflected in the spin dynamics.