The Well (micro-Well) Electron Multiplier with the DLC anode—a key element of the robust and fast 2D-position sensitive MPGD

Abstract: We report the results of first studies of the small resistive Well radiation detector (https://indico.inp.nsk.su/event/20/session/9/contribution/205/material/poster/0.pdf) based on the Well Electron Multiplier with the DLC (Diamond-Like Carbon) anode. The DLC film covers the printed circuit mesh surrounding a group of holes. The prototype built with this technology provides fast, 200 ns, evacuation of electrons from the resistive layer with surface resistivity of 25 MOhm/square. As shown with 55Fe X-ray source… Show more

“…The estimated discharge energy in this case is about 29 μJ from the capacitor energy formula. This is similar to the results reported earlier in [3], where such a detector was exposed to 500,000 discharge events, initiated by 55 Fe X-ray source at a gain of 32,000 corresponding to discharge energy of 33 μJ.…”

“…Two boards were combined (glued) together into a single multilayer board in such a way that the grid conductors are located between the holes of the top electrode and DLC coated FR4 is below the holes (figure 1b). The WEM detector and its performance are described in detail in [3]. We used the WEM detector with an active area of 10 × 10 mm 2 .…”

“…So the technology to be used in the new MPD TPC readout chambers should provide not only robustness to single discharge events, but also stable operation after multiple accumulated discharge events. One of the options considered for the MPD TPC readout chamber (ROC) upgrade is a chamber based on the Well Electron Multiplier (WEM) technology presented in [3]. The goal of this study was to see, how WEM performance will be affected by accumulated damage from multiple discharges caused by highly ionizing particles and estimate possibility of scaling the WEM detector in terms of its robustness.…”

Effect of multiple discharges on accumulated damage to the DLC anode layer of a resistive Well Electron Multiplier

“…The estimated discharge energy in this case is about 29 μJ from the capacitor energy formula. This is similar to the results reported earlier in [3], where such a detector was exposed to 500,000 discharge events, initiated by 55 Fe X-ray source at a gain of 32,000 corresponding to discharge energy of 33 μJ.…”

“…Two boards were combined (glued) together into a single multilayer board in such a way that the grid conductors are located between the holes of the top electrode and DLC coated FR4 is below the holes (figure 1b). The WEM detector and its performance are described in detail in [3]. We used the WEM detector with an active area of 10 × 10 mm 2 .…”

“…So the technology to be used in the new MPD TPC readout chambers should provide not only robustness to single discharge events, but also stable operation after multiple accumulated discharge events. One of the options considered for the MPD TPC readout chamber (ROC) upgrade is a chamber based on the Well Electron Multiplier (WEM) technology presented in [3]. The goal of this study was to see, how WEM performance will be affected by accumulated damage from multiple discharges caused by highly ionizing particles and estimate possibility of scaling the WEM detector in terms of its robustness.…”

Effect of multiple discharges on accumulated damage to the DLC anode layer of a resistive Well Electron Multiplier

Improving the robustness of Micromegas detector with resistive DLC anode for the upgrade of the TPC readout chambers of the MPD experiment at the NICA collider

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