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Pseudospin polarization of composite fermions under uniaxial strain
Shuai Yuan
, Jiaojie Yan
, Ke Huang
, Zhimou Chen
, Haoran Fan
,
L. N. Pfeiffer
, K. W. West
, Yang Liu
, Xi Lin
Electrical and Computer Engineering
Princeton Quantum Initiative
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Keyphrases
Pseudospin
100%
Composite Fermions
100%
Biaxial Strain
100%
Pseudospin Polarization
100%
Two Dimensional
50%
Fractional Quantum Hall Effect
50%
Energy Levels
50%
Transport Behavior
50%
Two-dimensional Systems
50%
2D Hole Gas (2DHG)
50%
Quantum Phase Transition
50%
Interaction System
50%
Extra Degree of Freedom
50%
Many-body Problem
50%
Engineering
Two Dimensional
100%
Degree of Freedom
33%
Dimensional System
33%
Body Problem
33%
Strain Behavior
33%
Critical Condition
33%
Interacting System
33%
Extra Degree
33%
Physics
Fermion
100%
Axial Strain
100%
Degree of Freedom
50%
Many Body Problem
50%
Chemistry
Many Body Problem
100%
Hole Gas
100%