Publications

“Suppression of superfluid density and the pseudogap state in the cuprates by impurities,”
Unurbat Erdenemunkh, Brian Koopman, Ling Fu, Kamalesh Chatterjee, W. D. Wise, G. D. Gu, E. W. Hudson, Michael C. Boyer, Physical Review Letters , 117, 257003, (2016).

“Multiple charge density wave states at the surface of TbTe3,”
Ling Fu, Aaron M. Kraft, Bishnu Sharma, Manoj Singh, Philip Walmsley, Ian R. Fisher, Michael C. Boyer, Physical Review B, 94, 205101, (2016).

“Observation of a superlattice in Li0.9Mo6O17 by scanning tunneling microscopy,”
Ling Fu, Aaron M. Kraft, Martha Greenblatt, Michael C. Boyer, Physical Review B, 93, 045430 (2016).

“The role of low-energy (≤20 eV) electrons in astrochemistry,”
Michael C. Boyer, Nathalie Rivas, Audrey A. Tran, Clarissa A. Verish, Christopher R. Arumainayagam, Surface Science, 652, 26 (2016).

“Low-energy (< 20 eV) and high-energy (1000 eV) electron-induced methanol radiolysis of astrochemical interest,”
Kristal K. Sullivan, Mavis D. Boamah, Katie E. Shulenberger, Sitara Chapman, Karen E.
Atkinson, Michael C. Boyer, Christopher R. Arumainayagam, Monthly Notices of the Royal Astronomical Society, 460 (1), 664-672, (2016).

“Dynamics of dissociative electron-molecule interactions in condensed methanol,”
Michael C. Boyer, Mavis D. Boamah, Kristal Sullivan, Christopher R. Arumainayagam, Andrew D. Bass, Lėon Sanche, The Journal of Physical Chemistry C, 118 (39), 22592–22600, (2014).

“Fermi surface and pseudogap evolution in a cuprate superconductor,”
Yang He, Yi Yin, M. Zech, Anjan Soumyanarayanan, Michael M. Yee, Tess Williams,
M. C. Boyer, Kamalesh Chatterjee, W. D. Wise, I. Zeljkovic, Takeshi Kondo, T. Takeuchi,
H. Ikuta, Peter Mistark, Robert S. Markiewicz, Arun Bansil, Subir Sachdev, E. W. Hudson, Jennifer E. Hoffman, Science, 344, 608 – 611, (2014).

“Low-energy electron-induced chemistry of condensed methanol: implications for the interstellar synthesis of prebiotic molecules,”
Mavis D. Boamah, Kristal K. Sullivan, Katie E. Shulenberger, Chan Myae M. Soe, Lisa M. Jacob, Farrah C. Yhee, Karen E. Atkinson, Michael C. Boyer, David R. Haines and Christopher R. Arumainayagam, Faraday Discussions, 168, 249, (2014).

“Topological Dangling Bonds with Large Spin Splitting and Enhanced Spin Polarization on the Surfaces of Bi2Se3,”
Hsin Lin, Tanmoy Das, Yoshinori Okada, Mike C. Boyer, W. Doug Wise, Michelle Tomasik, Bo Zhen, Eric W. Hudson, Wenwen Zhou, Vidya Madhavan, Chung-Yuan Ren, Hiroshi Ikuta, and Arun Bansil, Nano Letters, 13 (5), pp 1915 – 1919 (2013).

“STM imaging of inversion-symmetry-breaking structural distortion in the Bi-based cuprate superconductors,”
Ilija Zeljkovic, Elizabeth J. Main, Tess L. Williams, M. C. Boyer, Kamalesh Chatterjee, W. D. Wise, Takeshi Kondo, T. Takeuchi, Hiroshi Ikuta, G. D. Gu, E. W. Hudson, Jennifer E. Hoffman, Nature Materials 11, 585 – 589 (2012).

“An auxiliary capacitor based ultra-fast drive circuit for shear piezoelectric motors,”
Kamalesh Chatterjee, M. C. Boyer, W. D. Wise, E. W. Hudson, Review of Scientific Instruments 80, 095110 (2009).

“Visualizing Fermi surface variations at the nanoscale by scanning tunneling spectroscopy,”
W. D. Wise, Kamalesh Chatterjee, M. C. Boyer, Takeshi Kondo, T. Takeuchi, H. Ikuta, Zhijun Xu, G. D. Gu, Yayu Wang, E. W. Hudson, Nature Phys. 5, 213 – 216 (2009).

“Scanning tunneling microscopy of the 32 K superconductor (Sr1-xKx)Fe2As2,”
M. C. Boyer, Kamalesh Chatterjee, W. D. Wise, G. F. Chen, J. L. Luo, N. L. Wang, E. W. Hudson, preprint: arXiv:0806.4400.

“Charge density wave origin of cuprate checkerboard visualized by scanning tunneling microscopy,”
W. D. Wise, M. C. Boyer, Kamalesh Chatterjee, Takeshi Kondo, T. Takeuchi, H. Ikuta, Yayu Wang, E. W. Hudson, Nature Phys. 4, 696 – 699 (2008).

“Visualizing the interplay between high temperature superconductivity, the pseudogap and impurity resonances,”
Kamalesh Chatterjee, M. C. Boyer, W. D. Wise, Takeshi Kondo, T. Takeuchi, H. Ikuta, E. W. Hudson, Nature Phys. 4, 108 – 111 (2008).

“Imaging the two gaps of the high-temperature superconductor Bi2Sr2CuO6+x,”
M. C. Boyer, W. D. Wise, Kamalesh Chatterjee, Ming Yi, Takeshi Kondo, T. Takeuchi, H. Ikuta, E. W. Hudson, Nature Phys. 3, 802-806 (2007).