< Back to 68k.news US front page

Scientists Unlock Door to Manipulate Quantum Light - Huge Breakthrough in Physics!

Original source (on modern site) | Article images: [1] [2]

Researchers from the University of Sydney and the University of Basel in Switzerland have made a significant breakthrough in the field of quantum technology by demonstrating the manipulation and identification of small numbers of interacting photons. 

This is the first time that scientists have been able to observe stimulated light emission for single photons, a theory first proposed by Albert Einstein in 1916 that led to the invention of the laser. 

The researchers could measure the direct time delay between one photon and a pair of bound photons scattering off a single quantum dot, which is a type of artificially created atom. 

(Photo : Gerd Altmann/ Pixabay )

Manipulating 'Quantum Light'

This achievement opens the door to the manipulation of "quantum light," which could lead to advances in quantum-enhanced measurement techniques and photonic quantum computing, according to Dr. Sahand Mahmoodian, joint lead author of the research and a senior lecturer at the University of Sydney School of Physics.

Light has been a subject of fascination for scientists for over a century due to its theoretical beauty and practical applications. Without the theoretical underpinnings of light, much of modern technology, such as computers, mobile phones, and global communication networks, would be impossible. 

The use of light in communication through optic fibers is advantageous as packets of light energy, and photons, do not easily interact with each other, resulting in near distortion-free transfer of information at light speed.

However, when light is used to measure small changes in distance, such as in interferometers, the sensitivity of such devices is limited by the laws of quantum mechanics, which set limits on the average number of photons in the measuring device. 

Quantum light has an advantage as it can make more sensitive measurements with better resolution using fewer photons, which is important for applications such as biological microscopy.

The researchers' next step is to see how this approach can be used to generate states of light that are useful for fault-tolerant quantum computing, which is being pursued by multimillion-dollar companies like PsiQuantum and Xanadu. 

Read Also: A Newly-Discovered Honeycomb-like Material May Aid in the Creation of Quantum Technologies

Huge Technological Step

According to Dr. Tomm from the University of Basel, the discovery represents a huge technological step towards advanced applications, and the same principles can be applied to develop more-efficient devices that give us photon-bound states. 

This is promising for applications in various fields such as biology, advanced manufacturing, and quantum information processing, according to the team.

This groundbreaking achievement in quantum technology opens up a world of possibilities for practical applications in various fields. 

The ability to manipulate and identify small numbers of interacting photons will undoubtedly lead to advancements in quantum-enhanced measurement techniques and photonic quantum computing, revolutionizing modern technology as we know it. 

The findings of the team were published in Nature Physics. 

Related Article: IBM Quantum Computers: Research Shows First Proofs About Advantages, Says it Offers More Value

ⓒ 2024 TECHTIMES.com All rights reserved. Do not reproduce without permission.

< Back to 68k.news US front page