Quantum Matter Machine

Quantum Matter Machine

Exciting news - the Quantum Matter Machine (QMM) is coming soon! This compact and integrated tool from Infleqtion is a game-changer, providing high-value results in a fraction of the footprint of comparable systems. With the ability to generate, manipulate, and measure quantum matter, the QMM is the perfect addition to your quantum research and development toolkit.

Traditionally, achieving hardware capable of ultracold atoms and quantum matter would require a dedicated team of quantum physicists and a year of time. However, with the QMM, your team can focus on the work the hardware was designed to do, rather than spending precious time on setup and bring-up.

Whether you're a seasoned experimentalist, quantum theorist, or new to the field of ultracold matter, the QMM is designed to meet your needs. Infleqtion is dedicated to providing quality and compact quantum research and development tools so that you can focus on your own innovation. Get ready to take your quantum research to the next level with the QMM!

Features

  • Compact & highly integrated

  • RuBECi quantum core

  • Complete photonics, optics, and imaging systems

  • Expandable control package in a compact, moveable rack

  • Control software

  • Package upgrade option: projection system for arbitrary potential painting

Pricing Details

  • Shipping, taxes, and duties are not included in the estimated price

  • For international buyers, an additional distributor's cost may apply

Related Research

  • High resolution imaging and optical control of Bose-Einstein condensates in an atom chip magnetic trap List Item

    A high-resolution projection and imaging system for ultracold atoms is implemented using a compound silicon and glass atom chip. The atom chip is metalized to enable magnetic trapping while glass regions enable high numerical aperture optical access to atoms residing in the magnetic trap about 100 μm below the chip surface. The atom chip serves as a wall of the vacuum system, which enables the use of commercial microscope components for projection and imaging. Holographically generated light patterns are used to optically slice a cigar-shaped magnetic trap into separate regions; this has been used to simultaneously generate up to four Bose-condensates. Using fluorescence techniques, we have demonstrated in-trap imaging resolution down to 2.5 μm.

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  • Deutsche Physikalische Gesellschaft, find out more The Institute of Physics, find out more Focus on Atomtronics-enabled Quantum Technologies

    Imagine circuitry with atomic carriers instead of electrons and holes. The most evident features that result from such a design would be a reduced decoherence rate due to charge neutrality of the atomic currents, an ability to realize quantum devices with fermionic or bosonic carriers, and a tunable carrier–carrier interaction from weak-to-strong, from short-to-long range, from attractive-to-repulsive in type

    The rapid progress in quantum technology is spurring this dream to reality: Atomtronics is an emerging field in physics that promises to realize those atomic circuit architectures exploiting ultra-cold atoms manipulated in versatile micro-optical circuits generated by laser fields of different shapes and intensities or micro-magnetic circuits known as atom chips.

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  • ColdQuanta’s Latest Ultracold Technology Heads to the International Space Station

    “The Cold Atom Laboratory is a unique platform for studying quantum phenomena and potential applications of real-time quantum sensor technologies,” said Dana Anderson, Founder and Chief Technology Officer of ColdQuanta. “Since it first arrived at the ISS in May 2018, the CAL has successfully demonstrated important milestones, including what JPL called ‘the coolest experiment in the universe’ when a Bose-Einstein condensate was produced in orbit for the first time. We are excited to see what new milestones will be achieved with this second generation.”

    Read more

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RuBECi

The RuBECi is a self-contained, tabletop, ultrahigh vacuum system for creating and manipulating ultra-cold atoms. It utilizes a two-cell vacuum system (a 2D+ MOT source cell and an ultra-high vacuum science cell compatible with long trap lifetimes). It features an atom chip for simple and rapid BEC production with a high-duty cycle and low power consumption.