Quantum computing

Artist’s impression of an experiment is a spiral with a circle enclosing its center, with two waveforms penetrating it, all suspended over a circuit diagram “floor"

Fast control methods enable record-setting fidelity in superconducting qubit

The advance holds the promise to reduce error-correction resource overhead.

January 14, 2025

Illustration of quantum geometry for an electronic wave function looks like a colorful sphere with a plane draped over it.

Physicists measure quantum geometry for the first time

The work opens new avenues for understanding and manipulating electrons in materials.

January 13, 2025

Illustration shows rainbow-hued particles uniformly distributed on a deep blue background. A pair of cirlces labeled "E4" are shown orbiting in a circle at the center.

MIT physicists predict exotic form of matter with potential for quantum computing

New work suggests the ability to create fractionalized electrons known as non-Abelian anyons without a magnetic field, opening new possibilities for basic research and future applications.

November 18, 2024

A unique computer chip has red and blue light on grid-like pathways.

Quantum simulator could help uncover materials for high-performance electronics

By emulating a magnetic field on a superconducting quantum computer, researchers can probe complex properties of materials.

October 30, 2024

Toward a code-breaking quantum computer

Building on a landmark algorithm, researchers propose a way to make a smaller and more noise-tolerant quantum factoring circuit for cryptography.

August 23, 2024

Molecule with six atoms. Nickel is labeled at the center of each, and two are highlighted with red arrows that say "exciton hopping"

Physicists report new insights into exotic particles key to magnetism

The work on excitons, originating from ultrathin materials, could impact future electronics and establishes a new way to study these particles through a powerful instrument at the Brookhaven National Laboratory.

August 1, 2024

The colorful assemblage of cables and circuits that make up a quantum computer are shown in close detail.

Testing spooky action at a distance

A quantum computing research collaboration connects MIT with the University of Copenhagen.

July 31, 2024

Rendering shows the 4 layers of a semiconductor chip, with the top layer being a vibrant burst of light.

Modular, scalable hardware architecture for a quantum computer

A new quantum-system-on-chip enables the efficient control of a large array of qubits, moving toward practical quantum computing.

May 29, 2024

On top is a green cloud of atoms point up, and on bottom is a blue cloud of atoms pointing down. In between the clouds are lines representing a magnetic field repelling the atoms.

Physicists arrange atoms in extremely close proximity

The technique opens possibilities for exploring exotic states of matter and building new quantum materials.

May 2, 2024

A futuristic quantum computer chip is made of a grid with qubits on the intersections. These red spherical qubits emit flame-like energy between them.

MIT scientists tune the entanglement structure in an array of qubits

The advance offers a way to characterize a fundamental resource needed for quantum computing.

April 24, 2024

A lab technician standing over a piece of equipment, resembling a dryer, with a cloud of vapor coming out of it

A home where world-changing innovations take flight

The Engine Accelerator offers “tough tech” startups space, support, and a network to help them scale up.

April 17, 2024

Stylized drawing of a computer monitor with a black screen, surrounded by green beams of light and a completed task list on each side. Behind these objects are two IBM quantum computers, shown as cylinders connected to wires

A blueprint for making quantum computers easier to program

A CSAIL study highlights why it is so challenging to program a quantum computer to run a quantum algorithm, and offers a conceptual model for a more user-friendly quantum computer.

April 16, 2024

About 100 people pose for a photo in a large classroom. About a third are seated in the foreground and the rest stand

Unlocking the quantum future

At the MIT Quantum Hackathon, a community tackles quantum computing challenges.

March 18, 2024

Three small purple spheres are on left, and one large purple sphere is on right. A bending stream of energy is between them. Graphene layers are in the background.

Electrons become fractions of themselves in graphene, study finds

An exotic electronic state observed by MIT physicists could enable more robust forms of quantum computing.

February 21, 2024

Illustration shows a Venn diagram of three overlapping circles, each with a colorful qubit represented as a circle with an arrow through it. Colorful lines connect the three. Other qubits fly around.

Technique could improve the sensitivity of quantum sensing devices

The method lets researchers identify and control larger numbers of atomic-scale defects, to build a bigger system of qubits.

February 8, 2024

MIT News | Massachusetts Institute of Technology

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