• HOME
  • NEWS
  • EXPLORE
    • CAREER
      • Companies
      • Jobs
    • EVENTS
    • iGEM
      • News
      • Team
    • PHOTOS
    • VIDEO
    • WIKI
  • BLOG
  • COMMUNITY
    • FACEBOOK
    • INSTAGRAM
    • TWITTER
Tuesday, August 5, 2025
BIOENGINEER.ORG
No Result
View All Result
  • Login
  • HOME
  • NEWS
  • EXPLORE
    • CAREER
      • Companies
      • Jobs
        • Lecturer
        • PhD Studentship
        • Postdoc
        • Research Assistant
    • EVENTS
    • iGEM
      • News
      • Team
    • PHOTOS
    • VIDEO
    • WIKI
  • BLOG
  • COMMUNITY
    • FACEBOOK
    • INSTAGRAM
    • TWITTER
  • HOME
  • NEWS
  • EXPLORE
    • CAREER
      • Companies
      • Jobs
        • Lecturer
        • PhD Studentship
        • Postdoc
        • Research Assistant
    • EVENTS
    • iGEM
      • News
      • Team
    • PHOTOS
    • VIDEO
    • WIKI
  • BLOG
  • COMMUNITY
    • FACEBOOK
    • INSTAGRAM
    • TWITTER
No Result
View All Result
Bioengineer.org
No Result
View All Result
Home NEWS Science News Chemistry

New material shows high potential for quantum computing

Bioengineer by Bioengineer
June 28, 2019
in Chemistry
Reading Time: 3 mins read
0
Share on FacebookShare on TwitterShare on LinkedinShare on RedditShare on Telegram

Research by UC Riverside-MIT team focuses on quantum phenomena in gold

IMAGE

Credit: I. Pittalwala, UC Riverside.

RIVERSIDE, Calif. — A joint team of scientists at the University of California, Riverside, and the Massachusetts Institute of Technology is getting closer to confirming the existence of an exotic quantum particle called Majorana fermion, crucial for fault-tolerant quantum computing — the kind of quantum computing that addresses errors during its operation.

Quantum computing uses quantum phenomena to perform computations. Majorana fermions exist at the boundary of special superconductors called topological superconductors, which have a superconducting gap in their interiors and harbor Majorana fermions outside, at their boundaries. Majorana fermions are one of the most sought-after objects in quantum physics because they are their own antiparticles, they can split the quantum state of an electron in half, and they follow different statistics compared to electrons. Though many have claimed to have identified them, scientists still cannot confirm their exotic quantum nature.

The UCR-MIT team overcame the challenge by developing a new heterostructure material system, based on gold, that could be potentially used to demonstrate the existence and quantum nature of Majorana fermions. Heterostructure materials are made up of layers of drastically dissimilar materials that, together, show completely different functionalities when compared to their individual layers.

“It is highly nontrivial to find a material system that is naturally a topological superconductor,” said Peng Wei, an assistant professor of physics and astronomy and a condensed matter experimentalist, who co-led the study, appearing in Physical Review Letters, with Jagadeesh Moodera and Patrick Lee of MIT. “A material needs to satisfy several stringent conditions to become a topological superconductor.”

The Majorana fermion, considered to be half of an electron, is predicted to be found at the ends of a topological superconductor nanowire. Interestingly, two Majorana fermions can combine with each other to make up one electron, allowing the quantum states of the electron to be stored nonlocally — an advantage for fault-tolerant quantum computing.

In 2012, MIT theorists, led by Lee, predicted that heterostructures of gold can become a topological superconductor under strict conditions. Experiments done by the UCR-MIT team have achieved all the needed conditions for heterostructures of gold.

“Achieving such heterostructure is highly demanding because several material physics challenges needed to be addressed first,” said Wei, a UCR alum who returned to campus in 2016 from MIT.

Wei explained that the research paper shows superconductivity, magnetism, and electrons’ spin-orbit coupling can co-exist in gold — a difficult challenge to meet — and be manually mixed with other materials through heterostructures.

“Superconductivity and magnetism ordinarily do not coexist in the same material,” he said.

Gold is not a superconductor, he added, and neither are the electron states on its surface.

“Our paper shows for the first time that superconductivity can be brought to the surface states of gold, requiring new physics,” he said. “We show that it is possible to make the surface state of gold a superconductor, which has never been shown before.”

The research paper also shows the electron density of superconductivity in the surface states of gold can be tuned.

“This is important for future manipulation of Majorana fermions, required for better quantum computing,” Wei said. “Also, the surface state of gold is a two-dimensional system that is naturally scalable, meaning it allows the building of Majorana fermion circuits.”

Besides Wei, Moodera, and Lee, the research team also includes Sujit Manna and Marius Eich of MIT.

###

The research was funded by the John Templeton Foundation, Office of Naval Research, National Science Foundation, and Department of Energy.

The University of California, Riverside is a doctoral research university, a living laboratory for groundbreaking exploration of issues critical to Inland Southern California, the state and communities around the world. Reflecting California’s diverse culture, UCR’s enrollment is more than 24,000 students. The campus opened a medical school in 2013 and has reached the heart of the Coachella Valley by way of the UCR Palm Desert Center. The campus has an annual statewide economic impact of almost $2 billion. To learn more, email [email protected].

Media Contact
Iqbal Pittalwala
[email protected]

Tags: Chemistry/Physics/Materials SciencesMaterialsNanotechnology/MicromachinesSuperconductors/SemiconductorsTechnology/Engineering/Computer ScienceTheory/Design
Share12Tweet8Share2ShareShareShare2

Related Posts

blank

Hundreds of Satellite Systems Discovered Orbiting Dwarf Galaxies in New Survey

August 5, 2025
Harnessing Nature: Exploring Bush Basil Companion Plants for Organic Pest Control

Harnessing Nature: Exploring Bush Basil Companion Plants for Organic Pest Control

August 5, 2025

Diastereodivergent Routes to Multi-Substituted Cycloalkanes

August 5, 2025

UofL Study Reveals Amplified Liver Damage from Combined Exposure to Alcohol and “Forever Chemicals”

August 5, 2025
Please login to join discussion

POPULAR NEWS

  • blank

    Neuropsychiatric Risks Linked to COVID-19 Revealed

    72 shares
    Share 29 Tweet 18
  • Overlooked Dangers: Debunking Common Myths About Skin Cancer Risk in the U.S.

    61 shares
    Share 24 Tweet 15
  • Predicting Colorectal Cancer Using Lifestyle Factors

    46 shares
    Share 18 Tweet 12
  • Dr. Miriam Merad Honored with French Knighthood for Groundbreaking Contributions to Science and Medicine

    47 shares
    Share 19 Tweet 12

About

We bring you the latest biotechnology news from best research centers and universities around the world. Check our website.

Follow us

Recent News

World Models Power End-to-End Accident Prediction

Deep Sequencing Reveals Plasmodium vivax Lineages

Enamel Rod-End Patterns: New Forensic ID Tool?

  • Contact Us

Bioengineer.org © Copyright 2023 All Rights Reserved.

Welcome Back!

Login to your account below

Forgotten Password?

Retrieve your password

Please enter your username or email address to reset your password.

Log In
No Result
View All Result
  • Homepages
    • Home Page 1
    • Home Page 2
  • News
  • National
  • Business
  • Health
  • Lifestyle
  • Science

Bioengineer.org © Copyright 2023 All Rights Reserved.