Scientists noted that the quantum computing market will reach $65 billion by 2030, which is relevant
For example, pharmaceutical companies cansimulate the interaction of two molecules. The complexity of the process lies in the fact that each molecule consists of several hundred atoms, and scientists must simulate all the ways in which these atoms can be arranged when the corresponding molecules are introduced. The number of possible configurations is infinite - more than the number of atoms in the entire universe. Only a quantum computer can solve such a vast and dynamic problem.
Prior to the widespread use of quantum computing,still decades of research, while research groups in universities and private industry around the world are working on various aspects of this technology. For example, in this study, scientists have focused on the environment in which quantum computers can operate.
Scientists have created a spin reading method for a quantum computer
The research team applied photonicdevices that detect and shape light for a wide range of uses, including communications and computing. The research team has created a scalable quantum computing platform that dramatically reduces the number of devices needed to achieve quantum speed.
The group has created a quantum source in the opticalmicrocavity - a millimeter-sized ring-shaped structure that envelops photons and creates a microcob - a device that effectively converts photons from one to several wavelengths. Light circulates around the ring, accumulating optical energy. This increase in power increases the chances of photons interacting, leading to quantum entanglement between the fields of light in the microcoba.
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