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Related Concept Videos

The Quantum-Mechanical Model of an Atom02:45

The Quantum-Mechanical Model of an Atom

Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra. Schrödinger...
Quantum Numbers02:43

Quantum Numbers

It is said that the energy of an electron in an atom is quantized; that is, it can be equal only to certain specific values and can jump from one energy level to another but not transition smoothly or stay between these levels.

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Related Experiment Video

Updated: May 18, 2026

Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform
05:39

Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform

Published on: August 2, 2019

Blind topological measurement-based quantum computation.

Tomoyuki Morimae1, Keisuke Fujii

  • 1Controlled Quantum Dynamics Theory Group, Imperial College London, London SW7 2AZ, UK. morimae@gmail.com

Nature Communications
|September 6, 2012
PubMed
Summary
This summary is machine-generated.

Secure cloud quantum computation is now achievable. This study demonstrates fault-tolerant blind quantum computation using topological protection, overcoming scalability challenges in noisy conditions.

Related Experiment Videos

Last Updated: May 18, 2026

Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform
05:39

Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform

Published on: August 2, 2019

Area of Science:

  • Quantum Information Science
  • Quantum Computing Security

Background:

  • Blind quantum computation (BQC) allows computation delegation without revealing data.
  • Recent experiments highlight scalability challenges in noisy environments.

Purpose of the Study:

  • To demonstrate fault-tolerant blind quantum computation in a scalable manner.
  • To address limitations of current BQC proof-of-principle experiments.

Main Methods:

  • Utilized the Raussendorf-Harrington-Goyal (RHG) topological quantum computation scheme.
  • Implemented topological protection for fault tolerance in BQC.

Main Results:

  • Achieved fault-tolerant BQC with an error threshold of 4.3 × 10⁻³.
  • This threshold is comparable to non-blind topological quantum computation (7.5 × 10⁻³).

Conclusions:

  • Topologically protected BQC offers a viable path to secure quantum cloud computing.
  • The demonstrated error threshold is within reach of current experimental capabilities.