The high chemical specificity of Raman spectroscopy makes it an ideal choice for performing label-free chemical analysis.
By Ibtisam Abbasi
10 Nov 2023
In this interview, AZoOptics speaks with Teledyne Dalsa about the key roles of optics when it comes to Machine Vision Systems.
Ultrafast lasers can alter various materials, and the exceptional resolution of ultrafast lasers, along with their short bursts, make them the best choice for precise target-specific applications.
By Ibtisam Abbasi
7 Nov 2023
This article discusses fiber optic sensors for structural health monitoring and examines their significance, recent trends, technical intricacies, and the latest research findings.
In order to better understand quantum physics, advance quantum information processing, and create quantum technologies, photons have served as a flagship system. The utilization of photons as a naturally mobile, low-noise system with widely available quantum-limited detection led to the demonstration of quantum entanglement, teleportation, quantum key distribution, and early quantum computer demonstrations.
By Ilamaran Sivarajah
2 Nov 2023
In this piece, we discuss the applications and functions of fiber optic communication, as well as current and future advancements in the field.
By Michael Greenwood
1 Nov 2023
In the past 50 years, the pursuit of shorter laser pulses has been the driving force in advancing ultrafast science, with laser pulse compression techniques now enabling the generation of single-digit femtoseconds and even attosecond pulse durations.
For the study of such interactions leading to changes in the optical properties of photonic crystals, a high-intensity emitting medium such as high-energy lasers is required.
By Ibtisam Abbasi
25 Oct 2023
This article explores the technical aspects of quantum optics experiments with trapped ions, offering insights and exploring the latest developments in this rapidly evolving field at the forefront of quantum science.
Optical waveguides are specialized devices or mediums designed to confine and direct light propagation along a predetermined path, primarily in the form of optical signals or photons. These waveguides rely on the fundamental principles of electromagnetic theory to regulate the transmission and containment of light waves within their structures.