Fully Networked, Digital Components for Photon-starved Biomedical Imaging Systems

1. A Substrate Isolated CMOS SPAD Enabling Wide Spectral Response and Low Electrical Crosstalk
   C. Veerappan; E. Charbon;
   IEEE Journal of Selected Topics in Quantum Electronics,
   Volume 20, Issue 6, pp. 3801507, Nov.-Dec. 2014.

2. A 65k pixel, 150k frames-per-second camera with global gating and micro-lenses suitable for fluorescence lifetime imaging
   S. Burri; F. Powolny; C. E. Bruschini; X. Michalet; F. Regazzoni; E. Charbon;
   In Proc. SPIE,
   pp. 914109, May 2014.

3. SPADnet: a fully digital, scalable and networked photonic component for time-of-flight PET applications
   C. Bruschini; E. Charbon; C. Veerappan; L.H.C. Braga; N. Massari; M. Perenzoni; L. Gasparini; D. Stoppa; R. Walker; A. Erdogan; R. K. Henderson; S. East; L. Grant; B. Jatekos; F. Ujhelyi; G. Erdei; E. Lorinc;
   In Proc. SPIE,
   pp. 912913, May 2014.

4. SPADnet: A Fully Digital, Scalable and Networked Photonic Component for Time-of-Flight PET Applications
   C. Bruschini; E. Charbon; C. Veerappan; L.H.C. Braga; N. Massari; M. Perenzoni; L. Gasparini; D. Stoppa; R. Walker; A. Erdogan; R. K. Henderson; S. East; L. Grant; B. Jatekos; F. Ujhelyi; G. Erdei; E. Lorinc;
   In Proc. SPIE,
   Apr. 2014.

5. Updates from the SPADnet Project (A Fully Digital, Scalable and Networked Photonic Component for Time-of-Flight PET Applications)
   E. Charbon; C. Bruschini; C. Veerappan; L.H.C. Braga; N. Massari; M. Perenzoni; L. Gasparini; D. Stoppa; R. Walker; A. Erdogan; R.K. Henderson; S. East; L. Grant; B. Jatekos; F. Ujhelyi; G. Erdei; E. Lorincz;
   In IEEE PSMR,
   May 2014.

6. Distributed Coincidence Detection for Multi-ring based PET Systems
   C. Veerappan; C. Bruschini; E. Charbon;
   In Real Time Conference,
   May 2014.

7. SPADnet Network Modeling, Simulation and Emulation
   C. Veerappan; E. Venialgo; C. Bruschini; E. Charbon;
   In Real Time Conference,
   May 2014.

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