HPL-GEM: Controlling High Pressure Laminates bulk resistivity with GEMs

P. Vitulo (University of Pavia - Department of Physics; INFN Pavia)

arXiv:1803.07675·physics.ins-det·March 22, 2018

HPL-GEM: Controlling High Pressure Laminates bulk resistivity with GEMs

P. Vitulo (University of Pavia - Department of Physics, INFN Pavia)

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TL;DR

This paper demonstrates a novel method to control the electrical resistance of High Pressure Laminates by embedding a Gas Electron Multiplier, enabling significant and voltage-dependent resistance modulation.

Contribution

It introduces a new embedded system combining HPL and GEM to actively control bulk resistivity, a novel approach in material engineering.

Findings

01

Bulk resistance varies exponentially with applied voltage.

02

Resistance can be modulated by more than one order of magnitude.

03

Preliminary data confirms effective control of electrical properties.

Abstract

We succeeded in modifying and controlling the electrical resistance of a standard High Pressure Laminate (HPL) panel through the use of a Gas Electron Multiplier (GEM) foil that has been embedded into the bulk of the HPL plate itself. Electrical characterizations were made and preliminary data show that this HPL-GEM embedded system can easily vary its bulk resistance by more than one order of magnitude. Data show that the bulk resistance change is exponential with the applied voltage to the embedded GEM.

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Taxonomy

TopicsSemiconductor materials and devices · Advanced Memory and Neural Computing · Electronic and Structural Properties of Oxides