Sub-Penning gas mixtures: new possibilities for ton- to kiloton-scale time projection chambers

Abstract: In this work, we present the concept for large low-background experiments in which an unusual gas mixture gas serves as a seamless, high-QE, near-100%-coverage photodetector for scintillation or Cherenkov photons. We fill a large time projection chamber with a VUV scintillating gas, plus an unusually small admixture dopant gas with a low ionization threshhold (and a high ionization yield), akin to a highly-underquenched Penning mixture. Scintillation photons travel far from a primary ionization site before con… Show more

“…applications, too. This has given birth to proposals for using columnar recombination as a handle for determining nuclear recoil directionality [57,100,119], the possibility of sub-Fano mixtures in the search of double-beta decay [120], or photo-ionizable mixtures that would allow grabbing the primary scintillation in the TPC itself [121].…”

Gaseous and dual-phase time projection chambers for imaging rare processes

“…applications, too. This has given birth to proposals for using columnar recombination as a handle for determining nuclear recoil directionality [57,100,119], the possibility of sub-Fano mixtures in the search of double-beta decay [120], or photo-ionizable mixtures that would allow grabbing the primary scintillation in the TPC itself [121].…”

Gaseous and dual-phase time projection chambers for imaging rare processes

“…These dopants re-cast the problem of highly efficient collection of light by converting the scintillation light into an ionization signal, which is then collected via the readout wires [43]. This process works via two mechanisms [44,45]: Penning transfer and photoionization. In Penning transfer, an excited argon atom interacts directly with the dopant, thereby ionizing it.…”

Xenon-Doped Liquid Argon TPCs as a Neutrinoless Double Beta Decay Platform