Qubits can represent numerous possible combinations of 1 and 0 at the same time. This ability to simultaneously be in multiple states is called superposition. To put qubits into su... Qubits can represent numerous possible combinations of 1 and 0 at the same time. This ability to simultaneously be in multiple states is called superposition. To put qubits into superposition, researchers manipulate them using precision lasers or microwave beams.
Understand the Problem
The question is providing information about qubits, superposition, and the methods used to achieve superposition in quantum computing. It addresses the fundamental concepts of quantum states and manipulation techniques.
Answer
Qubits are put into superposition using precision lasers or microwave beams.
The process of putting qubits into superposition involves manipulating them using precision lasers or microwave beams.
Answer for screen readers
The process of putting qubits into superposition involves manipulating them using precision lasers or microwave beams.
More Information
Superposition is a fundamental principle of quantum computing where qubits can be in multiple states simultaneously, offering computational advantages over classical bits.
Tips
It's a common mistake to think that qubits literally exist in both 0 and 1 state simultaneously; instead, they exist in a probability distribution of these states.
Sources
- Quantum Computing Technologies Compared - Iceclog - iceclog.com
- Explainer: What is a quantum computer? - MIT Technology Review - technologyreview.com