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Primeur weekly 2020-05-25

Focus

InsideHPC's Rich Brueckner passes away at 58 ...

Only half of the EuroHPC countries confirmed they will participate in co-funding EuroHPC projects ...

Quantum computing

Atos and CSC empower the Finnish quantum research community with Atos Quantum Learning Machine ...

Quantum Hall effect 'reincarnated' in 3D topological materials ...

University of California Los Angeles physicists develop world's best quantum bits ...

Quantum leap: Photon discovery is a major step toward at-scale quantum technologies ...

Focus on Europe

HPC-AI Advisory Council and ISC Group continue Annual Student Cluster Competition as an online event ...

ELASTIC software architecture advances urban mobility in Florence ...

Middleware

Waste energy of LUMI supercomputer produces 20 percent of the district heat of Kajaani ...

Italy-based Do IT Systems becomes Bright Services Partner ...

Hardware

Microsoft claims to have built new supercomputer for OpenAI ...

New York University and IBM research takes electrons for a spin in moving toward more efficient, higher density data ...

GRC wins Phase I of AFWERX Programme ...

Samsung Electronics expands its foundry capacity with a new production line in Pyeongtaek, Korea ...

HPE reports Q2 results ...

Intersect360 Research invites your input in an all new survey ...

Applications

Scientists seeking therapies for deadly bacterial disease ...

2020 OLCF User Meeting will happen remote together ...

Summit supercomputer is mining for COVID-19 connections ...

A new method for unraveling complex gene interactions ...

ACM honours computing innovators for advances in research, education and industry ...

Discovery about the edge of fusion plasma could help realize fusion power ...

Superconductors with 'zeitgeist' - When materials differentiate between past and future ...

NIST team builds hybrid quantum system by entangling molecule with atom ...

BIOS IT partners with Panasas to deliver ActiveStor Ultra turnkey HPC storage appliances ...

Supercomputer model simulations reveal cause of Neanderthal extinction ...

Pittsburgh Supercomputing Center is supporting COVID-19 research ...

The Cloud

New technique separates industrial noise from natural seismic signals ...

Lyell Immunopharma goes all-in on AWS as its Cloud provider ...

WekaIO furthers Weka AI by integrating with deep learning pipeline management solution from Valohai ...

Quantum Hall effect 'reincarnated' in 3D topological materials


Matthew Foster is an associate professor of physics and astronomy at Rice University and a member of the Rice Center for Quantum Materials. Photo Credit: Jeff Fitlow/Rice University.
18 May 2020 Houston - U.S. and German physicists have found surprising evidence that one of the most famous phenomena in modern physics - the quantum Hall effect - is "reincarnated" in topological superconductors that could be used to build fault-tolerant quantum computers.

The 1980 discovery of the quantum Hall effect kicked off the study of topological orders, electronic states with "protected" patterns of long-range quantum entanglement that are remarkably robust. The stability of these protected states is extremely attractive for quantum computing, which uses quantum entanglement to store and process information.

In a study published online in Physical Review X (PRX), theoretical physicists from Rice University, the University of California, Berkeley, and the Karlsruhe Institute of Technology (KIT) in Karlsruhe, Germany, presented strong numerical evidence for a surprising link between 2D and 3D phases of topological matter. The quantum Hall effect was discovered in 2D materials, and laboratories worldwide are in a race to make 3D topological superconductors for quantum computing.

"In this work we've shown that a particular class of 3D topological superconductors should exhibit 'energy stacks' of 2D electronic states at their surfaces", stated Rice co-author Matthew Foster, an associate professor of physics and astronomy and member of the Rice Center for Quantum Materials (RCQM). "Each of these stacked states is a robust 'reincarnation' of a single, very special state that occurs in the 2D quantum Hall effect."

The quantum Hall effect was first measured in two-dimensional materials. Foster uses a "percolation" analogy to help visualize the strange similarities between what occurs in 2D quantum Hall experiments and the study's 3D computational models.

"Picture a sheet of paper with a map of rugged peaks and valleys, and then imagine what happens as you fill that landscape with water", he stated. "The water is our electrons, and when the level of fluid is low, you just have isolated lakes of electrons. The lakes are disconnected from one another, and the electrons can't conduct across the bulk. If water level is high, you have isolated islands, and in this case the islands are like the electrons, and you also don't get bulk conduction."

In Matthew Foster's analogy the rugged landscape is the electric potential of the 2D material, and the level of ruggedness corresponds to amount of impurities in the system. The water level represents the "Fermi energy", a concept in physics that refers to the filling level of electrons in a system. The edges of the paper map are analogous to the 1D edges that surround the 2D material.

"If you add water and tune the fluid level precisely to the point where you have little bridges of water connecting the lakes and little bridges of land connecting the islands, then it's as easy to travel by water or land", Matthew Foster stated. "That is the percolation threshold, which corresponds to the transition between topological states in quantum Hall. This is the special 2D state in quantum Hall."

"If you increase the fluid level more, now the electrons are trapped in isolated islands, and you'd think, 'Well, I have the same situation I had before, with no conduction'. But, at the special transition, one of the electronic states has peeled away to the edge. Adding more fluid doesn't remove the edge state, which can go around the whole sample, and nothing can stop it."

The analogy describes the relationship between robust edge conduction and bulk fine-tuning through the special transition in the quantum Hall effect. In the PRX study, Matthew Foster and co-authors Bjorn Sbierski of UC Berkeley and Jonas Karcher of KIT studied 3D topological systems that are similar to the 2D landscapes in the analogy.

"The interesting stuff in these 3D systems is also only happening at the boundary", Matthew Foster stated. "But now our boundaries aren't 1D edge states, they are 2D surfaces."

Using "brute-force numerical calculations of the surface states", Bjorn Sbierski, Jonas Karcher and Matthew Foster found a link between the critical 2D quantum Hall state and the 3D systems. Like the 1D edge state that persists above the transition energy in 2D quantum Hall materials, the calculations revealed a persistent 2D boundary state in the 3D systems. And not just any 2D state; it is exactly the same 2D percolation state that gives rise to 1D quantum Hall edge states.

"What was a fine-tuned topological quantum phase transition in 2D has been 'reincarnated' as the generic surface state for a higher dimensional bulk", Matthew Foster stated. "In 2018 study, my group identified an analogous connection between a different, more exotic type of 2D quantum Hall effect and the surface states of another class of 3D topological superconductors. With this new evidence, we are now confident there is a deep topological reason for these connections, but at the moment the mathematics remain obscure."

Topological superconductors have yet to be realized experimentally, but physicists are trying to create them by adding impurities to topological insulators. This process, known as doping, has been widely used to make other types of unconventional superconductors from bulk insulators.

"We now have evidence that three of the five 3D topological phases are tied to 2D phases that are versions of the quantum Hall effect, and all three 3D phases could be realized in 'topological superconductors'", Matthew Foster stated.

Matthew Foster said conventional wisdom in condensed matter physics has been that topological superconductors would each host only one protected 2D surface state and all other states would be adversely affected by unavoidable imperfections in the solid-state materials used to make the superconductors.

But Bjorn Sbierski, Jonas Karcher and Matthew Foster's calculations suggest that isn't the case.

"In quantum Hall, you can tune anywhere and still get this robust plateau in conductance, due to the 1D edge states", Matthew Foster stated. "Our work suggests that is also the case in 3D. We see stacks of critical states at different energy levels, and all of them are protected by this strange reincarnation of the 2D quantum Hall transition state."

The authors also set the stage for experimental work to verify their findings, working out details of how the surface states of the 3D phases should appear in various experimental probes.

"We provide precise statistical 'fingerprints' for the surface states of the topological phases", Matthew Foster stated. "The actual wave functions are random, due to disorder, but their distributions are universal and match the quantum Hall transition."

The research was supported by a National Science Foundation CAREER grant (1552327), the German National Academy of Sciences Leopoldina (LPDS 2018-12), a KIT research travel grant, German state graduate funding and the UC Berkeley Library's Berkeley Research Impact Initiative.

RCQM leverages global partnerships and the strengths of more than 20 Rice research groups to address questions related to quantum materials. RCQM is supported by Rice's offices of the provost and the vice provost for research, the Wiess School of Natural Sciences, the Brown School of Engineering, the Smalley-Curl Institute and the departments of Physics and Astronomy, Electrical and Computer Engineering, and Materials Science and NanoEngineering.
Source: Rice University

Back to Table of contents

Primeur weekly 2020-05-25

Focus

InsideHPC's Rich Brueckner passes away at 58 ...

Only half of the EuroHPC countries confirmed they will participate in co-funding EuroHPC projects ...

Quantum computing

Atos and CSC empower the Finnish quantum research community with Atos Quantum Learning Machine ...

Quantum Hall effect 'reincarnated' in 3D topological materials ...

University of California Los Angeles physicists develop world's best quantum bits ...

Quantum leap: Photon discovery is a major step toward at-scale quantum technologies ...

Focus on Europe

HPC-AI Advisory Council and ISC Group continue Annual Student Cluster Competition as an online event ...

ELASTIC software architecture advances urban mobility in Florence ...

Middleware

Waste energy of LUMI supercomputer produces 20 percent of the district heat of Kajaani ...

Italy-based Do IT Systems becomes Bright Services Partner ...

Hardware

Microsoft claims to have built new supercomputer for OpenAI ...

New York University and IBM research takes electrons for a spin in moving toward more efficient, higher density data ...

GRC wins Phase I of AFWERX Programme ...

Samsung Electronics expands its foundry capacity with a new production line in Pyeongtaek, Korea ...

HPE reports Q2 results ...

Intersect360 Research invites your input in an all new survey ...

Applications

Scientists seeking therapies for deadly bacterial disease ...

2020 OLCF User Meeting will happen remote together ...

Summit supercomputer is mining for COVID-19 connections ...

A new method for unraveling complex gene interactions ...

ACM honours computing innovators for advances in research, education and industry ...

Discovery about the edge of fusion plasma could help realize fusion power ...

Superconductors with 'zeitgeist' - When materials differentiate between past and future ...

NIST team builds hybrid quantum system by entangling molecule with atom ...

BIOS IT partners with Panasas to deliver ActiveStor Ultra turnkey HPC storage appliances ...

Supercomputer model simulations reveal cause of Neanderthal extinction ...

Pittsburgh Supercomputing Center is supporting COVID-19 research ...

The Cloud

New technique separates industrial noise from natural seismic signals ...

Lyell Immunopharma goes all-in on AWS as its Cloud provider ...

WekaIO furthers Weka AI by integrating with deep learning pipeline management solution from Valohai ...