High-resolution magnetic field fingerprinting of integrated circuit activity with a quantum diamond microscope

Turner, Matthew James; Levine, Edlyn Victoria; Kehayias, Pauli; Walters, Daniel T.; Walsworth, Ronald L.; Loncar, Marko; Langellier, Nicholas Ryan

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Title: High-resolution magnetic field fingerprinting of integrated circuit activity with a quantum diamond microscope

Abstract

Devices for determining a state of a magnetic field-generating article are provided. In various embodiments, a device comprises: a single crystal diamond having a plurality of NV centers, the single crystal diamond configured to be disposed adjacent to a magnetic field-generating article, and configured to generate a fluorescent signal in response to being illuminated by a light source; a coherent light source configured to generate a light beam directed at the single crystal diamond; a microwave (MW) radiation source configured to irradiate the single crystal diamond with a MW signal; a magnetic field source configured to apply a bias magnetic field to the single crystal diamond; a photosensor configured to collect the fluorescent signal generated by the single crystal diamond; and a computing node operatively coupled to each of the coherent light source, the MW radiation source, the magnetic field source, and the photosensor.

Inventors:: Turner, Matthew James; Levine, Edlyn Victoria; Kehayias, Pauli; Walters, Daniel T.; Walsworth, Ronald L.; Loncar, Marko; Langellier, Nicholas Ryan

Issue Date:: 2022-12-06

Research Org.:: Sandia National Lab. (SNL-NM), Albuquerque, NM (United States); The MITRE Corporation, McLean, VA (United States); Harvard Univ., Cambridge, MA (United States)

Sponsoring Org.:: USDOE

OSTI Identifier:: 1986910

Patent Number(s):: 11519989

Application Number:: 17/163,476

Assignee:: The MITRE Corporation (McLean, VA); President and Fellows of Harvard College (Cambridge, MA)

DOE Contract Number:: NA0003525

Resource Type:: Patent

Resource Relation:: Patent File Date: 01/31/2021

Country of Publication:: United States

Language:: English

Citation Formats


                    Turner, Matthew James, Levine, Edlyn Victoria, Kehayias, Pauli, Walters, Daniel T., Walsworth, Ronald L., Loncar, Marko, and Langellier, Nicholas Ryan. High-resolution magnetic field fingerprinting of integrated circuit activity with a quantum diamond microscope.  United States: N. p., 2022. 
        Web.

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                    Turner, Matthew James, Levine, Edlyn Victoria, Kehayias, Pauli, Walters, Daniel T., Walsworth, Ronald L., Loncar, Marko, & Langellier, Nicholas Ryan. High-resolution magnetic field fingerprinting of integrated circuit activity with a quantum diamond microscope.  United States.

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                    Turner, Matthew James, Levine, Edlyn Victoria, Kehayias, Pauli, Walters, Daniel T., Walsworth, Ronald L., Loncar, Marko, and Langellier, Nicholas Ryan. Tue .  
        "High-resolution magnetic field fingerprinting of integrated circuit activity with a quantum diamond microscope".  United States.  https://www.osti.gov/servlets/purl/1986910.

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@article{osti_1986910,

  title        = {High-resolution magnetic field fingerprinting of integrated circuit activity with a quantum diamond microscope},

  author       = {Turner, Matthew James and Levine, Edlyn Victoria and Kehayias, Pauli and Walters, Daniel T. and Walsworth, Ronald L. and Loncar, Marko and Langellier, Nicholas Ryan},

  abstractNote = {Devices for determining a state of a magnetic field-generating article are provided. In various embodiments, a device comprises: a single crystal diamond having a plurality of NV centers, the single crystal diamond configured to be disposed adjacent to a magnetic field-generating article, and configured to generate a fluorescent signal in response to being illuminated by a light source; a coherent light source configured to generate a light beam directed at the single crystal diamond; a microwave (MW) radiation source configured to irradiate the single crystal diamond with a MW signal; a magnetic field source configured to apply a bias magnetic field to the single crystal diamond; a photosensor configured to collect the fluorescent signal generated by the single crystal diamond; and a computing node operatively coupled to each of the coherent light source, the MW radiation source, the magnetic field source, and the photosensor.},

  doi          = {},

  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {2022},

  month        = {12}

}

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Works referenced in this record:

Magnetic Measuring Device
patent-application, October 2016

Hatano, Yuji; Ueno, Jun; Yoshino, Takashi
US Patent Application 15/098136; 20160313408
URL: https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/20160313408

Optically Integrated Biosensor Based on Optically Detected Magnetic Resonance
patent-application, March 2011

Fu, Kai-Mei Camilla; Barclay, Paul Edward; Beausoleil, Raymond G.
US Patent Application 12/558408; 20110062957
URL: https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/20110062957

Ultrahigh Resolution Dynamic IC Chip Activity Detection for Hardware Security
patent-application, October 2018

Shao, Linbo; Loncar, Marko
US Patent Application 15/766845; 20180284026
URL: https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/20180284026

DNV Magnetic Field Detector
patent-application, December 2016

Boesch, Brian P.; Bruce, Gregory Scott; Cammerata, Jeff D.
US Patent Application 15/179957; 20160356863
URL: https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/20160356863

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Title: High-resolution magnetic field fingerprinting of integrated circuit activity with a quantum diamond microscope

Abstract

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