Skip to content
Quantum Zeitgeist
  • Quantum Computing
    • Quantum Computing News
    • Quantum Research News
    • Quantum Computing Business News
    • Quantum Algorithms
    • Quantum Physics
    • Quantum Hardware
    • Quantum Applications
    • Quantum Security
    • Quantum Sensors
    • Quantum Machine Learning
    • Quantum Funding Landscape
    • Quantum Internet
    • Quantum Programming
    • Quantum Features
    • Quantum Cryptography
    • Quantum Companies
  • Technology News
    • Physics
    • Artificial Intelligence
    • Machine Learning
    • Robotics
  • Quantum Navigator

Majorana Zero Modes

  • New Films Bring Quantum Computing a Step Closer to Reality
    Quantum Algorithms, Quantum Hardware

    New Films Bring Quantum Computing a Step Closer to Reality

    by Muhammad Rohail T.May 22, 2026
  • Abstract illustration of a luminous white orb or sphere floating above a blue honeycomb or cellular grid surface, with the grid cells appearing to glow and recede into the distance against a dark background
    Physics, Quantum Machine Learning

    Machine Learning Identifies Quantum States in

    by Muhammad Rohail T.February 20, 2026
  • Negative Energy Splits Unlock More Stable Quantum Bits for Future Computers
    Quantum Computing

    Negative Energy Stabilizes Qubits for Quantum Computing

    by Muhammad Rohail T.February 12, 2026
  • Twisted Magnetism Can Both Create and Destroy Key Components for Quantum Computing
    Quantum Hardware

    Quantum Computing: Magnetism Destroys Key Components

    by Muhammad Rohail T.February 12, 2026
  • New Material Hosts ‘Majorana’ Particles for Robust Quantum Computing Networks
    Physics

    Majorana Particles Enable Robust Quantum Networks

    by Muhammad Rohail T.February 10, 2026
  • Spin-Qubit Relaxometry Detects Half-Vortex Magnetic Fluxes of ½ in Superconductors
    Quantum Computing

    Spin-Qubit Relaxometry Detects Superconductor Fluxes

    by Muhammad Rohail T.January 30, 2026
  • Quantum Capacitance Advances Kitaev Chain Identification with Minimal 1-Dot Coupling
    Quantum Computing

    Quantum Capacitance IDs Kitaev Chain with 1-Dot Coupling

    by Muhammad Rohail T.January 30, 2026
  • GrapheneGraphene Strips Support Majorana Modes with Tunable Polarization and Wavefunctions for Fault-tolerant Quantum Computation Strips Support Majorana Modes with Tunable Polarization and Wavefunctions for Fault-tolerant Quantum Computation
    Quantum Computing

    Graphene Hosts Tunable Majorana Modes for Quantum Computing

    by Muhammad Rohail T.December 2, 2025
  • Josephson Diode Effect in Kitaev Ladder Systems Enables Nonreciprocal Transport Without Magnetic Fields
    Quantum Computing Business News

    Josephson Diode: Nonreciprocal Transport in Kitaev Systems

    by Muhammad Rohail T.November 14, 2025
  • Superconducting Quantum Wires Exhibit Majorana Zero Modes Via Two-Channel Kondo Effect
    Quantum Computing Business News

    Majorana Zero Modes in Superconducting Quantum Wires

    by Muhammad Rohail T.November 11, 2025
  • Josephson Trijunctions Demonstrate Exchange of Majorana Zero Modes, Enabling Potential Braiding Operations
    Quantum Computing

    Majorana Zero Modes Braided in Josephson Trijunctions

    by Muhammad Rohail T.November 8, 2025
  • Current Cross-Correlation Spectroscopy Extracts Electron Traversal Times in Majorana Bound States Systems
    Quantum Physics

    Majorana Electrons: Speed of Traversal Measured

    by Quantum MechanicNovember 6, 2025
  • Nanowire device with visible superconducting gap glowing between contacts, electric gate field tuning spectral bands smoothly
    Quantum Hardware, Quantum Research News

    Pb-InSb Nanowires Show Gate-Tunable Kitaev Chain Potential

    by Muhammad Rohail T.October 16, 2025
  • Fermionic Superoperator Derivation Enables Rigorous Analysis of Transport through Majorana Zero Modes
    Quantum Mechanics, Quantum Research News

    Majorana Zero Modes: Fermionic Superoperator Analysis

    by Muhammad Rohail T.October 8, 2025
  • Majorana Platform Driven by Meissner Effect Enables Robust Quantum States with High Tunability
    Quantum Computing, Quantum Research News

    Majorana Platform Achieves Robust Quantum States

    by Muhammad Rohail T.October 2, 2025
  • Vortex-core Majorana Zero Modes Carry Nontrivial Angular Momentum, Classifying All Possible Numbers of Modes in Topological Superconductors
    Quantum Computing, Quantum Research News

    Majorana Zero Modes Carry Angular Momentum

    by Muhammad Rohail T.September 26, 2025
  • Altermagnetism Enables Superconducting Diode & Majorana
    Quantum Computing Business News

    Altermagnetism Enables Superconducting Diode & Majorana

    by Dr. DonovanSeptember 25, 2025
  • Bogoliubov Quasi-particles in Superconductors Are Integer-charged, Precluding Braiding Quantum Information
    Quantum Computing

    Superconductors: Quasi-particles Have Integer Charge

    by Dr. DonovanSeptember 14, 2025
  • Majorana Qubit: 99.2% Fidelity Gate Achieved
    Quantum Computing

    Majorana Qubit: 99.2% Fidelity Gate Achieved

    by Dr. DonovanAugust 21, 2025
  • Majorana Networks Enable Universal Topological Computation Beyond Braiding Operations
    Quantum Research News

    Majorana Networks Enable Universal Topo-Computation

    by Dr. DonovanAugust 18, 2025
  • Gate Reflectometry Distinguishes Key Processes for Forming Kitaev Chains in Quantum Dots
    Quantum Sensors

    Kitaev Chains Formed with Gate Reflectometry

    by Dr. DonovanAugust 11, 2025
  • Dali Center Hosts Events to Foster Science and Art Innovation
    Analog Computing

    Dali Center Fosters Quantum Science & Art

    by Dr. DonovanJuly 21, 2025
  • Superconducting Detectors Enhance Sensitivity for Remote Sensing and Imaging
    Quantum Research News

    Topological Qubits Boost Quantum Computing Stability

    by Dr. DonovanJuly 3, 2025
  • Majorana Qubit Decoherence Limited by Semiconductor Noise, Study Reveals.
    Quantum Research News

    Majorana Qubits: Noise Limits Decoherence in Study

    by Dr. DonovanJune 30, 2025
  • Rashba Coupling Enables Robust Quantum Computation with Majorana Zero Modes.
    Quantum Computing

    Rashba Coupling Boosts Majorana Quantum Computation

    by Dr. DonovanJune 27, 2025
  • Majorana Qubits: Entanglement Witness Distinguishes Robust Topological Quantum Information Encoding.
    Quantum Research News

    Majorana Qubits: Entanglement Verifies Robust Encoding

    by Dr. DonovanJune 23, 2025
  • Majorana Qubits Controlled by Magnetic Rotation Enable Scalable Quantum Computation
    Quantum Computing

    Majorana Qubits Controlled by Magnetic Rotation

    by Dr. DonovanJune 11, 2025
  • Topological Quantum Computation Advances with Tunable Majorana Zero Mode Braiding.
    Quantum Computing

    Majorana Braiding Advances Topological Quantum Computing

    by Dr. DonovanJune 7, 2025
  • Symmetry's Role in Majorana Zero Modes Formation: Insights from Magnetic Atomic Chains and Topological Properties
    Quantum Research News

    Majorana Zero Modes Formed with Magnetic Chains

    by Dr. DonovanApril 11, 2025
  • Three-Site Kitaev Chain Boosts Majorana Zero Mode Stability for Quantum Computing
    Quantum Research News

    Kitaev Chain Improves Majorana Stability for Quantum

    by Dr. DonovanApril 1, 2025
  • History of quantum computing illustrated: from Planck's 1900 quantum hypothesis through Feynman, Shor, and Google Willow to IBM Nighthawk.
    Quantum Features

    History of Quantum Computing: Complete Timeline (1900–2026)

    by Dr. DonovanFebruary 19, 2025
  • USTC achieves calculation of the Jones polynomial based on the Majorana zero modes
    Quantum Research News

    Majorana Zero Modes Calculate Jones Polynomial

    by Dr. DonovanJanuary 1, 2025
  • Novel Approach Measures Charge in Hybrid Nanowire, Futhering Quantum Computing Research
    Quantum Hardware

    Hybrid Nanowire Measures Charge for Quantum Computing

    by Quantum Computing NewsApril 5, 2024
  • University of Melbourne Researchers Pave Way for Fault-Tolerant Quantum Computing with Majorana Modes
    Quantum Research News

    Majorana Modes Advance Fault-Tolerant Quantum Computing

    by Dr. DonovanMarch 12, 2024

Search

Quantum Zeitgeist

The Quantum Newsletter

Quantum computing's breakthroughs, deals, and research, delivered straight to your inbox.

Read by quantum researchers, engineers, developers, and business professionals worldwide.

The Quantum Ecosystem

Explore the Quantum Navigator

A living directory of the global quantum industry. Browse 1,100+ companies across 52 countries, plus public quantum stocks and the investors funding them.

Open the Navigator →

Latest Quantum News

  • Researchers Detail Derivation of Attraction from Vacuum Fluctuations
  • QuEra’s Kipu Quantum Runs Toxicity Models on Neutral Atom QPUs
  • How Local Pseudopotentials Cut NNQMC Costs, Enabling Model Structures
  • Cohort of Startups Receives $300K Via QAI Ventures Program
  • Loredo to Train 300+ Quantum Ambassadors at Florida Atlantic In Partnership With D-Wave

Popular Quantum News Articles

  • David Bohm and Bohmian Mechanics
  • IEEE: IonQ Decoder Achieves 5.6× Error Reduction in Software
  • Google Quantum Computing
  • Why Quantum Computing Is Arriving Sooner Than You Think
  • 800× Better Logical Qubits Demonstrated on Quantinuum Hardware And Now Published In Nature
  • Ilyas Khan
  • Top Post-Quantum Cryptography Companies and NIST PQC Standards Guide
  • Quantum Computing Companies In 2026
  • University of California, Berkeley Finds ECG Biomarker
  • IonQ’s 256-Qubit Chip Arrives at Horizon Quantum’s Dublin HQ
  • Quantum Logical-Qubit Leaderboard
  • Clouds of Uncertainty Dog Microsoft’s Majorana Qubit Claims

Browse the Quantum Landscape

  • Top Quantum Hardware Companies
  • Top Quantum Software Companies
  • Quantum Cloud Providers
  • Post-Quantum Cryptography Guide
  • Quantum Navigator (1,000+ Companies)
  • Best Quantum Computing Books
  • History of Quantum Computing
  • Quantum Companies Interactive Map
  • Quantum Computing Glossary

Sponsored Event

Quantum Innovation Summit 2026

28 to 30 September 2026, Dubai. Where quantum technologies enter real-world systems.

Register Now → View agenda and speakers
Quantum Zeitgeist
Bluesky Logo

Learn Quantum Computing

  • Quantum Applications
  • Quantum Books
  • Quantum Computing Courses
  • Quantum Machine Learning
  • Quantum Programming

Quantum Industry

  • Quantum Cloud
  • Quantum Companies
  • Quantum Cryptography
  • Quantum Finance
  • Quantum Hardware
  • Quantum Internet
  • Quantum Funding

Technology

  • Artificial Intelligence
  • Analog Computing
  • Deep Tech
  • Emerging Technology
  • High Performance Computing
  • Machine Learning
  • Space
  • Science
  • Robotics

About Us

  • About Us
  • Write for Us
  • Terms and Conditions
  • Privacy Policy
  • Contact Us

Disclaimer: All material, including information from or attributed to Quantum Zeitgeist or individual authors of content on this website, has been obtained from sources believed to be accurate as of the date of publication. However, Quantum Zeitgeist makes no warranty of the accuracy or completeness of the information and Quantum Zeitgeist does not assume any responsibility for its accuracy, efficacy, or use. Any information on the website obtained by Quantum Zeitgeist from third parties has not been reviewed for accuracy.

Copyright 2019 to 2026 The Quantum Zeitgeist website is owned and operated by Hadamard LLC, a Wyoming limited liability company.

Manage Consent
To provide the best experiences, we use technologies like cookies to store and/or access device information. Consenting to these technologies will allow us to process data such as browsing behavior or unique IDs on this site. Not consenting or withdrawing consent, may adversely affect certain features and functions.
Functional Always active
The technical storage or access is strictly necessary for the legitimate purpose of enabling the use of a specific service explicitly requested by the subscriber or user, or for the sole purpose of carrying out the transmission of a communication over an electronic communications network.
Preferences
The technical storage or access is necessary for the legitimate purpose of storing preferences that are not requested by the subscriber or user.
Statistics
The technical storage or access that is used exclusively for statistical purposes. The technical storage or access that is used exclusively for anonymous statistical purposes. Without a subpoena, voluntary compliance on the part of your Internet Service Provider, or additional records from a third party, information stored or retrieved for this purpose alone cannot usually be used to identify you.
Marketing
The technical storage or access is required to create user profiles to send advertising, or to track the user on a website or across several websites for similar marketing purposes.
  • Manage options
  • Manage services
  • Manage {vendor_count} vendors
  • Read more about these purposes
View preferences
  • {title}
  • {title}
  • {title}