Quantum Imaging
Quantum imaging is an advanced technique that uses the unique properties of quantum light to produce images in ways that classical light can’t. It harnesses the quantum behavior of photons,….
Category: Quantum Computing
Nonlinear Quantum Optics
Before diving into nonlinear quantum optics, let’s understand nonlinear optics in general. Light usually behaves linearly in most materials—meaning that if you double the input light, you get double the….
Quantum Coherence in Optics
To understand quantum coherence, we need to first explore classical coherence. Coherence is a term that describes how predictably waves behave over time and space. If two light waves are….
Cavity Quantum Electrodynamics (QED)
Before diving into cavity QED, let’s understand what quantum electrodynamics (QED) is. At its core, QED is the quantum theory of light and matter. It describes how photons (particles of….
Quantum Optomechanics
Optomechanics is the study of how light (optics) and mechanical systems (mechanics) interact. More specifically, quantum optomechanics looks at how quantum light interacts with tiny mechanical oscillators, such as membranes,….
Squeezed States of Light
To understand squeezed states of light, we first need to change how we think about light. In classical physics, light is a wave that travels through space. In quantum mechanics,….
Quantum Interference
Quantum interference is one of the most fascinating and essential features of quantum mechanics. It refers to the phenomenon where quantum particles like photons, electrons, or atoms interfere with themselves….
Single-Photon Sources
A single-photon source is a device or system that emits one and only one photon at a time, on demand or probabilistically. In quantum technologies, especially quantum communication and quantum….
No-Cloning Theorem
The No-Cloning Theorem is a fundamental principle of quantum mechanics that states: It is impossible to create an exact copy of an arbitrary unknown quantum state. In simple terms, you….
Quantum Information Disturbance Trade-off
In classical physics, if you want to know about a system—like measuring a car’s speed or temperature—you can simply observe it. The act of measuring doesn’t significantly affect the car….