Speaker
James Brau
(University of Oregon)
Description
James Brau, Nikolai Sinev, David Strom
University of Oregon, Eugene, Oregon
Oliver Baker, Charles Baltay, Christian Weber
Yale University, New Haven, Connecticut
A monolithic CMOS pixel detector with time-stamping capability (Chronopixel) has been developed based on design goals of the International Linear Collider (ILC). Each hit is accompanied by a time tag with sufficient precision to assign it to a particular ILC bunch crossing - thus the name Chronopixel. This reduces the occupancy to negligible levels, even in the innermost vertex detector layer, yielding a robust vertex detector which operates at background levels significantly in excess of those currently foreseen for the ILC. The Chronopixel can record and store time stamps for two hits in each pixel while using standard CMOS processing for manufacturing. Following two earlier prototype fabrication runs and tests, a third prototype design was developed to resolve earlier issues, including a high capacitance problem. This problem was traced to the TSMC 90 nm technology design rules, which led to an unacceptably large value of the sensor diode capacitance. Six different layouts for the sensor diode were tested in the third prototype, and tests demonstrated that the high capacitance problem was solved. The third prototype has also been exposed to HL-LHC radiation levels; results of these tests are also presented.
Primary author
James Brau
(University of Oregon)
Co-authors
Prof.
Charles Baltay
(Yale University)
Mr
Christian Weber
(Yale University)
Prof.
David Strom
(University of Oregon)
Dr
Nikolai Sinev
(University of Oregon)
Prof.
Oliver Baker
(Yale University)
