Communication: Advanced Optical Materials

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Homoepitaxial Growth of Single Crystal Diamond Membranes for Quantum Information Processing

  1. Igor Aharonovich1,†,*,
  2. Jonathan C. Lee1,†,
  3. Andrew P. Magyar1,
  4. Bob B. Buckley2,
  5. Christopher G. Yale2,
  6. David D. Awschalom2,
  7. Evelyn L. Hu1

Article first published online: 31 JAN 2012

DOI: 10.1002/adma.201103932

Issue

Advanced Materials

Advanced Materials

Volume 24, Issue 10, pages OP54–OP59, March 8, 2012

Additional Information

How to Cite

Aharonovich, I., Lee, J. C., Magyar, A. P., Buckley, B. B., Yale, C. G., Awschalom, D. D. and Hu, E. L. (2012), Homoepitaxial Growth of Single Crystal Diamond Membranes for Quantum Information Processing. Adv. Mater., 24: OP54–OP59. doi: 10.1002/adma.201103932

Author Information

  1. 1

    School of Engineering and Applied Sciences, Harvard University, MA 02138, USA

  2. 2

    Center for Spintronics and Quantum Computation, University of California, Santa Barbara, California, 93106, USA

  1. I.A. and J.C.L. contributed equally to this work.

*School of Engineering and Applied Sciences, Harvard University, MA 02138, USA.

Publication History

  1. Issue published online: 6 MAR 2012
  2. Article first published online: 31 JAN 2012
  3. Manuscript Revised: 22 OCT 2011
  4. Manuscript Received: 12 OCT 2011

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Keywords:

  • diamond membranes;
  • quantum information processing;
  • nitrogen vacancy center;
  • spin coherence
Thumbnail image of graphical abstract

Homoepitaxial growth of single crystal diamond membranes is demonstrated employing a microwave plasma chemical vapor deposition technique. The membranes possess excellent structural, optical, and spin properties, which make them suitable for fabrication of optical microcavities for applications in quantum information processing, photonics, spintronics, and sensing.

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