Signal Processing Systems
Dept. of Microelectronics

dr. Y. Maruyama

Postdoc
Signal Processing Systems (SPS), Department of Microelectronics

Expertise: Single photon imaging, applications to biomarkers and label-free DNA detection

Themes: Quantum imaging sensors

Biography

Yuki Maruyama was a postdoc in the CAS group, with Prof. Edoardo Charbon. Since October 2012, he is with JPL, Pasadena (CA).

Publications

  1. Architecture and applications of a high resolution gated SPAD image sensor
    S. Burri; Y. Maruyama; X. Michalet; F. Regazzoni; C. Bruschini; E. Charbon;
    Optics Express,
    Volume 22, Issue 14, pp. 17573-17589, Jul. 2014.
    document

  2. A 1024 8, 700-ps Time-Gated SPAD Line Sensor for Planetary Surface Exploration With Laser Raman Spectroscopy and LIBS
    Y. Maruyama; J. Blacksberg; E. Charbon;
    IEEE Journal of Solid-State Circuits,
    Volume 49, Issue 1, pp. 179-189, Jan. 2014.
    document

  3. SPADs for Quantum Random Number Generators and beyond
    S. Burri; D. Stucki; Y. Maruyama; C. Bruschini; E. Charbon; F. Regazzoni;
    In ASP-DAC,
    Feb. 2014.

  4. A 1024?8 700ps Time-Gated SPAD Line Sensor for Laser Raman Spectroscopy and LIBS in Space and Rover-Based Planetary Exploration
    Y. Maruyama; J. Blacksberg; E. Charbon;
    In Proc. IEEE International Solid-State Circuits Conference (ISSCC),
    February 2013.
    document

  5. Silicon Integrated Electrical Micro-Lens for CMOS SPADs based on Avalanche Propagation Phenomenon
    C. Veerappan; Y. Maruyama; E. Charbon;
    In Proc. International Image Sensor Workshop,
    June 2013.
    document

  6. Jailbreak Imagers: Transforming a Single-Photon Image Sensor into a True Random Number Generator
    S. Burri; D. Stucky; Y. Maruyama; C. Bruschini andE. Charbon; F. regazzoni;
    In Proc. International Image Sensor Workshop,
    June 2013.
    document

  7. A Geiger Mode APD fabricated in Standard 65nm CMOS Technology
    E. Charbon; H.J. Yoon; Y. Maruyama;
    In Proc. IEEE International Electron Device Meeting (IEDM),
    December 2013.
    document

  8. A Time-Resolved, Low-Noise Single-Photon Image Sensor Fabricated in Deep-Submicron CMOS Technology
    M. Gersbach; Y. Maruyama; R. Trimananda; M.W. Fishburn; D. Stoppa; J.A. Richardson; R. Walker; R.K.Henderson; E. Charbon;
    Journal of Solid-State Circuits,
    Volume 47, Issue 6, pp. 1394-1407, June 2012.
    document

  9. Maximizing Science Return from a Single On-Surface Mineralogy Tool: Combined Raman, LIBS, and Fluorescence?Spectroscopy
    J. Blacksberg; Y. Maruyama; M. Choukroun; E. Charbon; G.R. Rossman;
    In Proc. Concepts and Approaches for Mars,
    2012.
    document

  10. New Microscopic Laser-Coupled Spectroscopy Instrument Combining Raman, LIBS, and Fluorescence for Planetary Surface Mineralogy
    J. Blacksberg; Y. Maruyama; M. Choukroun; E. Charbon; G.R. Rossman;
    In Proc. Lunar & Planetary Science Conference,
    March 2012.
    document

  11. A time-resolved 128x128 SPAD camera for laser Raman spectroscopy
    Y. Maruyama; J. Blacksberg; G.R. Rossman; E. Charbon;
    In Proc. SPIE DSS Single-Photon Imaging,
    April 2012.
    document

  12. Combined Raman and LIBS for Planetary Surface Exploration: Enhanced Science Return Enabled by Time-Resolved Laser Spectroscopy
    J. Blacksberg; Y. Maruyama; M. Choukroun; E. Charbon; G.R. Rossman;
    In Proc. NASA International Workshop on Instrumentation for Planetaru Missions,
    October 2012.
    document

  13. A Single-Photon, Deep Sub-Nanosecond Integrated Circuits for Fluorescence Lifetime Imaging Microscopy
    Y. Maruyama; E. Charbon;
    In Proc. ECS,
    May 2012.
    document

  14. Fast Single-Photon Avalanche Diode Arrays for Laser Raman Spectroscopy
    J. Blacksberg; Y. Maruyama; E. Charbon; G. Rossman;
    Optics Letters,
    Volume 36, Issue 18, pp. 3672-3674, September 2011.
    document

  15. A 160x128 Single-Photon Image Sensor with On-Pixel 55ps 10b Time-to-Digital Converter
    C. Veerappan; J. Richardson; R. Walker; D.U. Li; M.W. Fishburn; Y. Maruyama; D. Stoppa; F. Borghetti; M. Gersbach; R.K. Henderson; E Charbon;
    In Proc. IEEE Intl. Conference of Solid-State Circuits (ISSCC),
    pp. 312-314, February 2011.
    document

  16. A Fully-integrated, Time-resolved 160x128 SPAD Pixel Array with Micro-concentrators
    J. Arlt; F. Borghetti; C. Bruschini; E. Charbon; D. Dryden; S. East; M.W. Fishburn; M. Gersbach; G. Giraud; L. Grant; R.K. Henderson; D.U. Li; Y. Maruyama; D. Stoppa; D. Tyndall; C. Veerappan; R. Walker;
    In Proc. SPIE Defense and Security,
    April 2011.

  17. Characterization of Large-Scale Non-Uniformities in a 20k TDC/SPAD Array Integrated in a 130nm CMOS Process
    C. Veerappan; J. Richardson; R. Walker; D.U. Li; M.W. Fishburn; D. Stoppa; F. Borghetti; Y. Maruyama; M. Gersbach; R.K. Henderson; C. Bruschini; E. Charbon;
    In Proc. IEEE European Solid-State Electron Device Conference (ESSDERC),
    pp. 331-334, September 2011.
    document

  18. An All-Digital, Time-gated 128x128 SPAD Array for On-chip, Filter-less Fluorescence Detection
    Y. Maruyama; E. Charbon;
    In Proc. IEEE Transducers,
    June 2011.
    document

  19. An All-Digital 128x128 CMOS Optical/Electrical Image Sensor
    Y. Maruyama; E. Charbon;
    In Proc. Intl. Symposium on Microchemistry and Microsystems (ISMM),
    June 2011.
    document

  20. A Time-Gated 128x128 CMOS SPAD Array for on-Chip Fluorescence Detection
    Y. Maruyama; E. Charbon;
    In Proc. Intl. Image Sensor Workshop (IISW),
    June 2011.
    document

  21. New Ethylene Glycaol-Silane monolayer for Highly-specific DNA Detection onto Silicon Chips
    S. Carrara; A. Cavallini; Y. Maruyama; E. Charbon; G. De Micheli;
    Surface Science Letters,
    Volume 604, Issue 23-24, pp. 71-74, October 2010. DOI: 10.1016/j.susc.2010.08.025
    document

  22. Nano-metric Single-Photon Detector for Biochemical Chips
    E. Charbon; Y. Maruyama;
    In Nano-Bio-Sensing,
    Dordrecht, Springer, November 2010. ISBN: 978-1-4419-6169-3_7. DOI: 10.1007/978-1-4419-6169-3_7
    document

  23. High frame-rate TCSPC-FLIM readout system using a SPAD-based image sensor
    M. Gersbach; R. Trimananda; Y. Maruyama; M. Fishburn; D. Stoppa; J. Richardson; R. Walker; R.K. Henderson; E. Charbon;
    In Proc. SPIE Optics+Photonics Single-Photon Imaging,
    San Diego (CA), August 2010.
    document

  24. Label free CMOS DNA image sensor based on the charge transfer technique
    Y. Maruyama; S. Terao; K. Sawada;
    Biosensors and Bioelectronics,
    Volume 24, pp. 3108-3112, 2009. ISSN 0956-5663.

  25. A Parallel 32x32 Time-to-Digital Converter Array Fabricated in a 130nm Imaging CMOS Technology
    M. Gersbach; Y. Maruyama; E. Labonne; J. Richardson; R. Walker; L. Grant; R. K. Henderson; F. Borghetti; D. Stoppa; E. Charbon;
    In IEEE European Solid-State Device Conference (ESSCIRC),
    Athens, Greece, IEEE, pp. 196-199, September 2009. DOI: 10.1109/ESSCIRC.2009.5326021
    document

BibTeX support

Last updated: 8 Nov 2014

Yuki Maruyama

Alumnus