Tuula Virolainen scite author profile

Tuula Virolainen

4Publications

70Citation Statements Received

19Citation Statements Given

How they've been cited

How they cite others

Affiliations

Tieto (Finland), VTT Technical Research Centre of Finland

Publications

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Recent advances in processing and characterization of edgeless detectors

Kalliopuska

Eränen

et al. 2012

J. Inst.

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During past five years VTT has actively developed edgeless detector fabrication process. The straightforward and high yield process relies on ion-implantation to activate the edges of the detector. A recent fabrication process was performed at VTT to provide p-on-n edgeless detectors. The layout contained DC-and AC-coupled strip detector and pixel detectors for Medipix/Timepix readouts. The fabricated detector thicknesses were 50, 100 and 150 µm. Electrical characterization was done for 5×5 mm 2 edgeless diodes on wafer level. All measured electrical parameters showed a dramatic dependence on the diode thickness. Leakage current was measured below 10 nA/cm 2 at full depletion. Calculation using a theoretical approximation indicates the diode surface generation current of less than 300 pA. The breakdown voltages were measured to be above 140 V and increased as a function of diode thickness. Reverse bias of 10 V is enough to fully deplete designed edgeless diodes. Leakage current dependence of temperature was investigated for both p-on-n and previous n-on-n edgeless detectors and results show that the leakage current doubles for every 8.5 degree Celsius rise in temperature. TCAD device simulations reveal that breakdown occurs at the lateral p-n junction where the electric field reaches its highest value. Thick edgeless diodes have wider bulk space that allows electric potential to drop and causes smaller curvature of the equipotential lines. This releases the accumulation of electric field at the corner of anode and increases the breakdown voltage. A good match of the simulated and the measured capacitance-voltage curves enables identification of proper parameters used in the simulation.

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3D processing on 6in. high resistive SOI wafers: Fabrication of edgeless strip and pixel detectors

Eränen¹,

Kalliopuska²,

Orava³

et al. 2009

Nuclear Instruments and Methods in Physics Research Section A:

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Processing and characterization of edgeless radiation detectors for large area detection

Kalliopuska

Jakůbek

et al. 2013

Nuclear Instruments and Methods in Physics Research Section A:

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Characterization of edgeless pixel detectors coupled to Medipix2 readout chip

Kalliopuska

Tlustos

Eränen

et al. 2011

Nuclear Instruments and Methods in Physics Research Section A:

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