Español

New discoveries bring progress in photon calculation

829
2024-04-27 14:19:49
Ver traducción

International researchers led by Philip Walther from the University of Vienna have made significant breakthroughs in the field of quantum technology, successfully demonstrating quantum interference between multiple single photons using a new resource-saving platform. This work, published in Science Advances, represents a significant advancement in the field of quantum computing and paves the way for more scalable quantum technologies.

The interference between photons is a fundamental phenomenon in quantum optics and the cornerstone of optical quantum computation. It involves using the characteristics of light (such as the wave particle duality of light) to induce interference modes, thereby achieving the encoding and processing of quantum information.

In traditional multiphoton experiments, spatial encoding is commonly used, which involves manipulating photons on different spatial paths to induce interference. These experiments require complex equipment and numerous components, making them resource intensive and difficult to scale.
In contrast, an international team composed of scientists from the University of Vienna, Politecnico di Milano, and the Free University of Brussels chose a time coding based approach. This technique manipulates the temporal rather than spatial statistics of photons.

To achieve this method, they developed an innovative architecture using fiber optic loops at the Christian Doppler Laboratory at the University of Vienna. This design can reuse the same optical components to achieve efficient multiphoton interference with minimal physical resources.

Multiphoton interference network
The first author Lorenzo Carosini explained, "In our experiment, we observed quantum interference between up to eight photons, exceeding the scale of most existing experiments. Thanks to the versatility of our method, the interference mode can be reconfigured and the experimental scale can be expanded without changing the optical device."

The research results indicate that compared with traditional spatial encoding methods, the implemented architecture has significant resource efficiency, paving the way for more easily accessible and scalable quantum technologies.

Source: Physicist Organization Network

Recomendaciones relacionadas
  • Optical Drive Magnetic Control: A Breakthrough in Memory Technology

    A recent study conducted by the Hebrew University suggests an undiscovered relationship between magnetism and light. This discovery may pave the way for extremely fast optical storage technology and creative optical magnetic sensor technology.It is expected that this discovery will completely change the way equipment is manufactured and data is stored in a range of fields.Amir Capua, Professor and...

    2024-01-06
    Ver traducción
  • Trumpf announces four personnel changes

    Recently, global laser giant Germany's Trumpf announced four personnel changes, namely Claudio Santopietro as the head of intelligent factory consulting and automation, Kevin Cuseo as the head of software sales, Julian Schorpp as the product manager for automatic bending products, and Adam Simons as the head of additive manufacturing for Trumpf North America.According to relevant information, Clau...

    2024-11-26
    Ver traducción
  • American FMCW LiDAR listed company Aeva receives $50 million investment

    Recently, American FMCW LiDAR listed company Aeva announced a strategic partnership with a technology subsidiary of a Fortune Global 500 company to jointly introduce Aeva's fourth generation 4D LiDAR into emerging industrial and consumer markets.According to the agreement, the tech giant will provide a strategic investment of approximately $50 million to Aeva through subscription of Aeva common st...

    05-22
    Ver traducción
  • Romania Center launches the world's most powerful laser

    Are you ready? The signal is out! "In the control room of a research center in Romania, engineer Antonio Toma has activated the world's most powerful laser, which is expected to make revolutionary progress in various fields from the health sector to space. The laser located in the center near the Romanian capital Bucharest is operated by the French company Thales and utilizes the invention of Nobe...

    2024-04-01
    Ver traducción
  • Tongkuai and KDPOF launch their first 980 nm multi gigabit automotive interconnection system

    Tongkuai Optoelectronic Devices, a global leader in vertical cavity laser emitters (VCSEL) and laser diodes (PD) solutions based in Germany, and a Spanish expert in high-speed optical network solutions, KDPOF, showcased the first 980 nm multi gigabit interconnect system for automotive systems at last week's ECOC.Both companies are committed to achieving the most advanced optical data communication...

    2023-10-17
    Ver traducción