简体中文

Generating dark and entangled states in optical cavities: unlocking new possibilities in quantum metrology

830
2024-02-20 14:20:50
查看翻译

Physicists have been working hard to improve the accuracy of atomic clocks, which are the most precise timing devices currently available. A promising way to achieve higher accuracy is to utilize spin squeezed states in clock atoms.

Spin squeezed states are entangled quantum states in which particles work together to counteract their inherent quantum noise. These states provide incredible potential for quantum enhanced measurement and metrology. However, creating spin squeezed states with minimal external noise in optical transitions has always been a challenging task.

The research team led by Anna Maria Ray has been focusing on using optical cavities to generate spin squeezed states. These chambers are composed of mirrors, allowing light to reflect back and forth multiple times. In the cavity, atoms can synchronize their photon emission, producing much brighter light than individual atoms alone. This phenomenon is called superradiance. According to the control method of superradiance, it may lead to entanglement or destruction of the required quantum state.

In their previous work, Rey and her team found that multi-level atoms with two or more internal energy states provided unique opportunities for utilizing superradiance emission. By inducing atoms to cancel each other's emission, they can produce dark states that are not affected by superradiance.

Now, in two recently released studies, the team has revealed a method that can not only generate dark states in optical cavities, but also spin compress these states. This breakthrough opens up exciting possibilities for the generation of entangled clocks and the advancement of quantum metrology.

Researchers have discovered two methods for preparing highly entangled spin squeezed states in atoms. One method is to use a laser to power atoms and place them at special points on a superradiance potential called saddle points. At these points, atoms reshape their noise distribution and become highly compressed. Another method is to transfer the superradiance state to the dark state, utilizing specific points where atoms approach bright spots with zero curvature.
The fascinating aspect of these findings is that even without external laser drive, spin squeezing can be retained. This conversion of compressed state to dark state not only maintains the reduced noise characteristics, but also ensures their survival.

These findings provide new avenues for quantum metrology, enabling more precise measurements and enhancing the capabilities of atomic clocks. By utilizing dark and entangled states within optical cavities, researchers can unleash the potential of quantum enhancement technology and delve deeper into the fascinating world of quantum physics.

Source: Laser Net

相关推荐
  • Aalyria plans to establish a laser link mesh network to quickly transmit data on land, in the air, in the ocean, and in space

    Aalyria is establishing a laser link mesh network to quickly transmit data on land, in the air, in the ocean, and in space. The maritime part of the plan is about to be pushed forward.Recently, this DC based laser communication network company announced the signing of a memorandum of understanding with HICO Investment Group, which focuses on investing in shipping and logistics companies. According...

    2023-10-26
    查看翻译
  • Laser Photonics officially launches its SaberTech laser cutting system

    Recently, Laser Photonics (LPC) officially launched its SaberTech laser cutting system. This system not only enriches the product line of LPC's laser cleaning, welding, marking, and engraving systems, but also marks another important breakthrough for the company in the field of laser technology. This product release is another heavyweight measure after LPC's latest generation laser cleaning system...

    2024-06-19
    查看翻译
  • NUBURU announces its latest strategic blueprint

    Following the announcement of the immediate termination of a $2 million stock exchange agreement and its partnership with HUMBL, high-power blue laser light source manufacturer NUBURU has once again announced its latest strategic blueprint. Through specific understanding, after this strategic update, NUBURU's business model will cover two collaborative key business lines, with a focus on defense a...

    04-17
    查看翻译
  • Scientists demonstrate a new optical neural network training method that can crush electronic microprocessors

    The current deep neural network system (such as ChatGPT) can quickly improve energy efficiency by 100 times in training, and "future improvements will greatly increase by several orders of magnitude. Scientists from MIT and other institutions have demonstrated a new optical neural network training method that can crush state-of-the-art electronic microprocessors.Moreover, the computational density...

    2023-09-27
    查看翻译
  • The Science Island team has made new progress in detecting atmospheric formaldehyde

    Recently, Zhang Weijun, a research team of the Anguang Institute of the Chinese Academy of Sciences, Hefei Academy of Materials, made new progress in atmospheric formaldehyde detection, and the related achievements were published on the international TOP journal Sensors and Actors: B. Chemical under the title of "Portable highly sensitive laser absorption spectrum formaldehyde sensor based on comp...

    2023-09-21
    查看翻译