Nederlands

Researchers develop new techniques for controlling individual qubits using lasers

855
2023-09-12 15:01:26
Bekijk vertaling

Researchers at the University of Waterloo's Institute for Quantum Computing (IQC) have developed a new technique that uses lasers to control individual qubits made from the chemical element barium. The breakthrough is a key step toward realizing the capabilities of quantum computers.

The new technique uses thin glass waveguides to segment and focus laser beams with unprecedented precision. Each focused laser beam can be adjusted independently, making it possible to reliably manipulate individual qubits. Previous methods could not achieve this level of control.

One of the main advantages of the new technology is its ability to limit crosstalk, which is interference between adjacent ions. The researchers were able to reduce the crosstalk to just 0.01 percent of its relative strength, making it one of the best in the quantum world. This means that the laser beam can target specific ions without affecting its neighbors.

The researchers focused on the barium ion, which has the right energy state to be used as the zero and one energy levels of qubits. Unlike other atom types, barium ions can be manipulated using visible green light rather than higher energy ultraviolet light. This allows researchers to take advantage of commercially available optical techniques that were previously unavailable at ultraviolet wavelengths.

The team developed a waveguide circuit that divides a single laser beam into 16 different light channels. Each channel is then sent to its own fibre-based modulator, which individually controls the intensity, frequency and phase of each laser beam. A series of optical lenses are then used to focus the laser beam to a narrow gap.

The researchers monitored each laser beam with precise camera sensors, confirming their precise focusing and control. This highly accurate and flexible control system sets a new standard in academia and industry.

The ultimate goal of this research is to build barium ion quantum processors, because ions are the same natural qubits that do not need to be manufactured. The focus now is on finding ways to effectively control these ions.

Source: Laser Network

Gerelateerde aanbevelingen
  • Developing a concentration independent pressure sensing method for high-temperature combustion diagnosis

    Recently, a research group led by Professor Gao Xiaoming and Professor Liu Kun of the Chinese Academy of Sciences Hefei Institute of Physical Sciences developed a concentration independent pressure sensing method based on two-color laser absorption spectrum for high-temperature combustion diagnosis.The research findings are published in Optics Letters.Aircraft engines are developing towards high-t...

    2024-03-08
    Bekijk vertaling
  • Revealing the essence of optical vortices: a step towards understanding the interaction between light and matter

    In a groundbreaking scientific study published in Volume 13 of the Scientific Report, researchers reported on the results of Young's double slit interference experiment using oscillating vortex radiation under a photon counting system. The experiment involves using a spiral oscillator to emit second harmonic radiation in the ultraviolet range. Using an ultra narrow bandpass filter in the low curre...

    2023-12-29
    Bekijk vertaling
  • Intel: Has acquired most of ASML's NA extreme ultraviolet lithography equipment in the first half of next year

    According to Korean media reports, Intel has acquired most of the high numerical aperture (NA) extreme ultraviolet (EUV) lithography equipment manufactured by ASML in the first half of next year.ASML plans to produce 5 high NA EUV lithography equipment this year, all of which will be supplied to Intel.They stated that ASML has an annual production capacity of approximately 5-6 High Numerical Apert...

    2024-05-21
    Bekijk vertaling
  • The NIRPS alliance is driven by laser frequency comb technology to advance research on exoplanets

    The Near Infrared Red Planet Search Alliance, jointly managed by the Department of Astronomy at the University of Geneva and the University of Montreal, has received cutting-edge advances in CSEM laser frequency comb technology.The laser frequency comb is a precise and stable light source designed to help the NIRPS alliance unravel the mysteries of distant planets, including the possibility of sea...

    2023-12-13
    Bekijk vertaling
  • Devices based on optical thermodynamics can guide light without the need for switches

    Researchers from Ming Hsieh's Department of Electrical and Computer Engineering at the University of Southern California have designed the first optical device that follows the emerging optical thermodynamic framework.The work, reported in Nature Photonics, introduces a new way of routing light in nonlinear systems—meaning systems that do not require switches, external control, or digital addressi...

    10-15
    Bekijk vertaling