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3D-printed components for quantum devices.

R Saint1,2, W Evans1,2, Y Zhou1

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Summary
This summary is machine-generated.

Additive manufacturing enables compact, efficient quantum devices. A new ultracold atom source demonstrates scalable production of portable quantum technology for diverse applications.

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Area of Science:

  • Quantum physics and metrology
  • Atomic gas manipulation
  • Advanced manufacturing techniques

Background:

  • Recent progress in atomic gas preparation, control, and measurement has yielded significant insights into quantum phenomena and enhanced metrological sensitivity.
  • Applications in fields like biomedical imaging, underground mapping, and GPS-free navigation require scalable, efficient, robust, and portable quantum devices.

Purpose of the Study:

  • To introduce additive manufacturing as a viable production technique for quantum device components.
  • To demonstrate a novel, power-efficient ultracold atom source for scalable quantum device fabrication.

Main Methods:

  • Utilizing additive manufacturing for quantum device component design and rapid prototyping.
  • Developing an ultrahigh vacuum (UHV) compatible ultracold atom source.
  • Characterizing the power consumption and output of the atom source.

Main Results:

  • Additive manufacturing offers unparalleled design freedom, leading to improved efficiency, compactness, and system integration.
  • The demonstrated ultracold atom source operates with less than ten milliwatts of electrical power for field generation.
  • Large samples of cold rubidium gases were successfully produced.

Conclusions:

  • Additive manufacturing represents a disruptive technology for producing quantum device components.
  • This approach facilitates the creation of drastically improved integrated structures for scalable series manufacture of bespoke portable quantum devices.