Your search keyword '"Poley, Luise"' showing total 2 results

1. Curing early breakdown in silicon strip sensors with radiation.

Author

Poley, Luise, Brooks, Jammel, Duden, Emily, Fadeyev, Vitaliy, Farook, Hijas, Fernandez-Tejero, Javier, Fournier, Andrew, Hoeferkamp, Martin, Kierstead, Jim, Lynn, David, Mandić, Igor, Moshe, Meny Raviv, Osieja, Jack, Sorenson, Josef, Stelzer, Bernd, Stucci, Stefania, and Seidel, Sally

Subjects

*BREAKDOWN voltage, *LARGE Hadron Collider, *HYBRID integrated circuits, *RADIATION, *DETECTORS, *NEUTRON irradiation, *PRINTED circuits

Abstract

In preparation for the forthcoming High-Luminosity phase of the Large Hadron Collider, the ATLAS experiment is working on major upgrades to its detector systems to effectively accommodate the increase in radiation levels and track density. The foremost among these upgrades entails the replacement of the current inner tracking detector with an advanced all-silicon Inner Tracker (ITk). In the outer region of the ITk apparatus is the Strip Detector. Central to the new strip tracking system are the ITk Strip modules, comprising silicon sensors and hybrid Printed Circuit Boards housing the integral read-out Application-Specific Integrated Circuits (ASICs) as well as power distribution services. Thorough characterisation of the electrical characteristics of the silicon strip modules at various stages of the assembly procedure holds paramount significance in evaluating module performance. This rigorous evaluation ensures timely identification of any anomalies, thereby enabling proactive remedial measures. Notably, during the course of these electrical assessments, certain modules manifested breakdown phenomena occurring below the prescribed threshold of 500 V, mandated by the ITk Quality Control protocols. Based on these observations, controlled exposure to low levels of radiation was suspected to elevate the breakdown voltage in susceptible sensors. This contribution presents results from two irradiation campaigns to investigate potentially beneficial effects of irradiation. One study investigates the effects of gamma irradiation on modules showing an early breakdown after gluing. For this study, modules were exposed to an ionising dose of 11 krad (corresponding to the dose accumulated after several days of operation in the HL-LHC) utilising a 60Co source. The second campaign focuses on silicon sensor test structures with low breakdown voltage due to intentionally caused mechanical defects and their development after exposure to reactor neutrons. In both cases, preliminary findings suggest a discernible improvement in the breakdown voltage. [ABSTRACT FROM AUTHOR]

Published

2024

2. Investigations into the impact of bond pads and p-stop implants on the detection efficiency of silicon micro-strip sensors

Author

Poley, Luise, Lohwasser, Kristin, Keller, John, Lacasta, Carlos, Maneuski, Dzmitry, Meng, Lingxin, Milovanovic, Marko, Pape, Ian, Phillips, Peter W., Rehnisch, Laura, Sperlich, Dennis, Sawyer, Craig, Blue, Andrew, Stegler, Martin, Unno, Yoshinobu, Warren, Matt, Yildirim, Eda, Benoit, Mathieu, Bloch, Ingo, Diez, Sergio, Fadeyev, Vitaliy, Gallop, Bruce, Greenall, Ashley, and Gregor, Ingrid-Maria

Subjects

Physics::Instrumentation and Detectors, irradiation [X-ray], microstrip [semiconductor detector], irradiation [charged particle], ATLAS, performance, damage [radiation]

Abstract

The High Luminosity Upgrade of the LHC will require the replacement of the Inner Detector of ATLAS with the Inner Tracker (ITk) in order to cope with higher radiation levels and higher track densities. Prototype silicon strip detector modules are currently developed and their performance is studied in both particle test beams and X-ray beams. In previous test beam studies of prototype modules, silicon sensor strips were found to respond in regions varying from the strip pitch of 74.5 $\mu m$. The variations have been linked to local features of the sensor architecture. This paper presents results of detailed sensor measurements in both X-ray and particle beams investigating the impact of sensor features (metal pads and p-stops) on the responding area of a sensor strip.

Published

2016