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Publications

Non-Abelian bosonization and modular transformation approach to superuniversality

Cornell Affiliated Author(s)
Author
A. Hui
Eun-Ah Kim
M. Mulligan
Abstract

Quantum Hall inter-plateau transitions are physical exemplars of quantum phase transitions. Near each of these transitions, the measured electrical conductivity scales with the same correlation length and dynamical critical exponents, i.e., the critical points are superuniversal. In apparent contradiction to these experiments, prior theoretical studies of quantum Hall phase transitions within the framework of Abelian Chern-Simons theory coupled to matter found correlation length exponents that depend on the value of the quantum critical Hall conductivity.

Journal
Physical Review B
Date Published
Group (Lab)

Three-dimensional character of the Fermi surface in ultrathin LaTiO3/SrTiO3 heterostructures

Cornell Affiliated Author(s)
Author
M. Veit
M. Chan
B. Ramshaw
R. Arras
R. Pentcheva
Y. Suzuki
Abstract

LaTiO3 films on SrTiO3 single crystal substrates exhibit metallic behavior attributed to the LaTiO3 film, the interface as well as part of the SrTiO3. In the limit of ultrathin LaTiO3 films on SrTiO3, the contribution to the metallicity from strain-induced electronic structure modification of the LaTiO3 film is minimized so that the dominant contribution to metallicity is from the interface and part of the SrTiO3 due to charge transfer of 3d electrons from LaTiO3 to SrTiO3.

Journal
Physical Review B
Date Published
Funding Source
DMR-1157490

Exploring bias in mechanical engineering students’ perceptions of classmates

Cornell Affiliated Author(s)
Author
S. Salehi
N.G. Holmes
C. Wieman
Abstract

Gender disparity in science, technology, engineering, and math (STEM) fields is an ongoing challenge. Gender bias is one of the possible mechanisms leading to such disparities and has been extensively studied. Previous work showed that there was a gender bias in how students perceived the competence of their peers in undergraduate biology courses. We examined whether there was a similar gender bias in a mechanical engineering course. We conducted the study in two offerings of the course, which used different instructional practices.

Journal
PLoS ONE
Date Published

Electronic structure of SnSe2 films grown by molecular beam epitaxy

Cornell Affiliated Author(s)
Author
E.B. Lochocki
S. Vishwanath
X. Liu
M. Dobrowolska
J. Furdyna
H.G. Xing
K.M. Shen
Abstract

SnSe2 is a layered main-group metal dichalcogenide that has exhibited gate-tunable interfacial superconductivity as well as promising optoelectronic applications. Here, we synthesize SnSe2 films by molecular beam epitaxy and investigate their electronic structure with angle-resolved photoemission spectroscopy (ARPES). A comparison between density functional theory calculations and ARPES data from a thick film reveals the importance of spin-orbit coupling and out-of-plane dispersion in the SnSe2 valence bands, which were neglected in previous studies of its electronic structure.

Journal
Applied Physics Letters
Date Published
Funding Source
DMR-1539918
DMR-1709255
1433490
DMR-1719875
DMR 1400432
Group (Lab)
Kyle Shen Group

Evidence of pair-density wave in spin-valley locked systems

Cornell Affiliated Author(s)
Author
J. Venderley
Eun-Ah Kim
Abstract

Cooper pairs with a finite center-of-mass momentum form a remarkable state in which the superconducting order parameter is modulated periodically in space. Although intense interest in such a “pair-density wave” (PDW) state has emerged due to recent discoveries in high T c superconductors, there is little theoretical understanding of the mechanism driving this exotic state. The challenge is that many competing states lie close in energy in seemingly simple models, such as the Hubbard model, in the strongly correlated regime.

Journal
Science Advances
Date Published
Group (Lab)

Fixed-Target serial oscillation crystallography at room temperature

Cornell Affiliated Author(s)
Author
J.L. Wierman
O. Paré-Labrosse
A. Sarracini
J.E. Besaw
M.J. Cook
S. Oghbaey
H. Daoud
P. Mehrabi
I. Kriksunov
A. Kuo
D.J. Schuller
S. Smith
O.P. Ernst
D.M.E. Szebenyi
Sol Gruner
R.J. Miller
A.D. Finke
Abstract

A fixed-Target approach to high-Throughput room-Temperature serial synchrotron crystallography with oscillation is described. Patterned silicon chips with microwells provide high crystal-loading density with an extremely high hit rate. The microfocus, undulator-fed beamline at CHESS, which has compound refractive optics and a fast-framing detector, was built and optimized for this experiment.

Journal
IUCrJ
Date Published
Group (Lab)
Sol M. Gruner Group

Evidence for a Spatially Modulated Superfluid Phase of He 3 under Confinement

Cornell Affiliated Author(s)
Author
L.V. Levitin
B. Yager
L. Sumner
B. Cowan
A.J. Casey
J. Saunders
N. Zhelev
R.G. Bennett
J.M. Parpia
Abstract

In superfluid He3-B confined in a slab geometry, domain walls between regions of different order parameter orientation are predicted to be energetically stable. Formation of the spatially modulated superfluid stripe phase has been proposed. We confined He3 in a 1.1 μm high microfluidic cavity and cooled it into the B phase at low pressure, where the stripe phase is predicted. We measured the surface-induced order parameter distortion with NMR, sensitive to the formation of domains. The results rule out the stripe phase, but are consistent with 2D modulated superfluid order.

Journal
Physical Review Letters
Date Published
Funding Source
1202991
1708341
824109
10.13039/501100000266
EP/R04533X/1
EP/R04533X/1
EP/J022004/1
DMR-1202991
DMR-1708341
10.13039/100000001
DMR-1202991
DMR-1708341
Group (Lab)
Jeevak Parpia Group

Morphology of renormalization-group flow for the de Almeida-Thouless-Gardner universality class

Cornell Affiliated Author(s)
Author
P. Charbonneau
Y. Hu
A. Raju
J.P. Sethna
S. Yaida
Abstract

A replica-symmetry-breaking phase transition is predicted in a host of disordered media. The criticality of the transition has, however, long been questioned below its upper critical dimension, six, due to the absence of a critical fixed point in the renormalization-group flows at one-loop order. A recent two-loop analysis revealed a possible strong-coupling fixed point, but given the uncontrolled nature of perturbative analysis in the strong-coupling regime, debate persists.

Journal
Physical Review E
Date Published
Funding Source
DMR-1719490
1719490
454937
Research Area
Group (Lab)
James Sethna Group

Spin-Orbit Torques in Heavy-Metal-Ferromagnet Bilayers with Varying Strengths of Interfacial Spin-Orbit Coupling

Cornell Affiliated Author(s)
Author
L. Zhu
D.C. Ralph
Robert Buhrman
Abstract

Despite intense efforts it has remained unresolved whether and how interfacial spin-orbit coupling (ISOC) affects spin transport across heavy-metal (HM)-ferromagnet (FM) interfaces. Here we report conclusive experiment evidence that the ISOC at HM/FM interfaces is the dominant mechanism for "spin memory loss". An increase in ISOC significantly reduces, in a linear manner, the dampinglike spin-orbit torque (SOT) exerted on the FM layer via degradation of the spin transparency of the interface for spin currents generated in the HM.

Journal
Physical Review Letters
Date Published
Funding Source
W911NF-14-C0089
ECCS-1542081

Strain-engineering Mott-insulating La 2 CuO 4

Cornell Affiliated Author(s)
Author
O. Ivashko
M. Horio
W. Wan
N.B. Christensen
D.E. McNally
E. Paris
Y. Tseng
N.E. Shaik
H.M. Rønnow
H.I. Wei
C. Adamo
C. Lichtensteiger
M. Gibert
M.R. Beasley
K.M. Shen
J.M. Tomczak
T. Schmitt
J. Chang
Abstract

The transition temperature T c of unconventional superconductivity is often tunable. For a monolayer of FeSe, for example, the sweet spot is uniquely bound to titanium-oxide substrates. By contrast for La 2−x Sr x CuO 4 thin films, such substrates are sub-optimal and the highest T c is instead obtained using LaSrAlO 4 . An outstanding challenge is thus to understand the optimal conditions for superconductivity in thin films: which microscopic parameters drive the change in T c and how can we tune them?

Journal
Nature Communications
Date Published
Funding Source
FA9550-15-1-0474
200021-169061
FA9550-09-1-0583
BSSGI0_155873
CRSII2_160765/1
51NF40_141828
Group (Lab)
Kyle Shen Group