M. K. Lee scite author profile

The advanced molybdenum-based rare process experiment (AMoRE) aims to search for neutrinoless double beta decay ($$0\nu \beta \beta $$0νββ) of $$^{100}$$100Mo with $$\sim 100\,\hbox {kg}$$∼100kg of $$^{100}$$100Mo-enriched molybdenum embedded in cryogenic detectors with a dual heat and light readout. At the current, pilot stage of the AMoRE project we employ six calcium molybdate crystals with a total mass of 1.9 kg, produced from $$^{48}$$48Ca-depleted calcium and $$^{100}$$100Mo-enriched molybdenum ($$^{48{{\text {depl}}}}\hbox {Ca}^{100}\hbox {MoO}_{4}$$48deplCa100MoO4). The simultaneous detection of heat (phonon) and scintillation (photon) signals is realized with high resolution metallic magnetic calorimeter sensors that operate at milli-Kelvin temperatures. This stage of the project is carried out in the Yangyang underground laboratory at a depth of 700 m. We report first results from the AMoRE-Pilot $$0\nu \beta \beta $$0νββ search with a 111 kg day live exposure of $$^{48{{\text {depl}}}}\hbox {Ca}^{100}\hbox {MoO}_{4}$$48deplCa100MoO4 crystals. No evidence for $$0\nu \beta \beta $$0νββ decay of $$^{100}$$100Mo is found, and a upper limit is set for the half-life of $$0\nu \beta \beta $$0νββ of $$^{100}$$100Mo of $$T^{0\nu }_{1/2} > 9.5\times 10^{22}~\hbox {years}$$T1/20ν>9.5×1022years at 90% C.L. This limit corresponds to an effective Majorana neutrino mass limit in the range $$\langle m_{\beta \beta }\rangle \le (1.2-2.1)\,\hbox {eV}$$⟨mββ⟩≤(1.2-2.1)eV.

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Search for inelastic WIMP nucleus scattering on 129Xe in data from the XMASS-I experiment

Uchida

Abe

Hieda

et al. 2014

Progress of Theoretical and Experimental Physics

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Improved search for two-neutrino double electron capture on 124Xe and 126Xe using particle identification in XMASS-I

Abe

Hiraide

Ichimura

et al. 2018

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Scintillation-only based pulse shape discrimination for nuclear and electron recoils in liquid xenon

Ueshima

Abe

Hiraide

et al. 2011

Nuclear Instruments and Methods in Physics Research Section A:

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In a dedicated test setup at the Kamioka Observatory we studied pulse shape discrimination (PSD) in liquid xenon (LXe) for dark matter searches. PSD in LXe was based on the observation that scintillation light from electron events was emitted Preprint submitted to Elsevier 14 June 2011 over a longer period of time than that of nuclear recoil events, and our method used a simple ratio of early to total scintillation light emission in a single scintillation event.Requiring an efficiency of 50% for nuclear recoil retention we reduced the electron background to 7.7±1.1(stat)± 1.2 0.6 (sys)×10 −2 at energies between 4.8 and 7.2 keV ee and to 7.7±2.8(stat)± 2.5 2.8 (sys)×10 −3 at energies between 9.6 and 12 keV ee for a scintillation light yield of 20.9 p.e./keV. Further study was done by masking some of that light to reduce this yield to 4.6 p.e./keV, the same method results in an electron event reduction of 2.4±0.2(stat)± 0.3 0.2 (sys)×10 −1 for the lower of the energy regions above. We also observe that in contrast to nuclear recoils the fluctuations in our early to total ratio for electron events are larger than expected from statistical fluctuations.

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Heat and Light Measurement of a Crystal for the AMoRE Double Beta Decay Experiment

Kim

Choi

et al. 2016

IEEE Trans. Nucl. Sci.

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M. K. Lee

First results from the AMoRE-Pilot neutrinoless double beta decay experiment

Search for inelastic WIMP nucleus scattering on 129Xe in data from the XMASS-I experiment

Improved search for two-neutrino double electron capture on 124Xe and 126Xe using particle identification in XMASS-I

Scintillation-only based pulse shape discrimination for nuclear and electron recoils in liquid xenon

Heat and Light Measurement of a Crystal for the AMoRE Double Beta Decay Experiment

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