Understanding Quantum Computing and Qubits

They use less energy.

They can solve complex problems much faster.

They are more widely available.

They are cheaper to build.

A silicon atom

A phosphorous atom

A hydrogen atom

A carbon atom

By applying a magnetic field

By using a laser

By changing its temperature

By hitting it with a pulse of microwaves

It cools the system.

It detects the energy state of the electron.

It amplifies the signal.

It provides a magnetic field.

To make the system more efficient

To increase the electron's energy

To ensure the electron remains in the spin down state

To reduce the size of the apparatus

It cannot be isolated.

It is highly magnetic.

It is 2000 times weaker than an electron's spin.

It has no spin.

It decreases the electron's spin.

It changes the electron's charge.

It alters the electron's frequency response.

It increases the electron's energy.

It is cheaper to produce.

It is more abundant.

It is more reactive.

It has no nuclear spin.

The Nuclear Spin Reduction Program

The Quantum Computing Initiative

The Silicon Purity Project

The Avogadro project

It is too expensive.

It is too reactive.

It is not conductive enough.

It contains isotopes with nuclear spin.