Status of KIMS-NaI experiment

Status of KIMS-NaI experiment Hyun Su Lee Institute for Basic Science, Korea On behalf of the KIMS Collaboration XIV International Conference on Topics in Astroparticle and Underground Physics

KIMS-NaI experiment DAMA To confirm DAMA annual modulation signature v CsI is not enough for WIMP-Na interaction v Same NaI crystal for the same annual modulation signature Need to develop ultra-pure NaI(Tl) crystals v Goal is less than DAMA background (~1 dru = 1 counts/kev/kg/day) v 200 kg 3 years data will prove DAMA signature without any ambiguity 2

KIMS-NaI crystals Development of low background NaI(Tl) crystals NaI-001 NaI-002 NaI-003 NaI-004 NaI-005 NaI-006 Mass 8.26 kg 9.15 kg 3.35kg 3.35kg 9.16 kg 11.44 kg Powder AS AS SA-AG SA-CG AS SA-CG Crystal AS AS AS AS AS BH Arrive 2013.9 2014.1 2014.8 2014.8 2014.11 2014.12 K.W.Kim et al., Astropart. Phys. 62, 249 (2015) NaI-007 (replacement of NaI-005) was arrived at Y2L Glossary AS = Alpha Spectra Inc (US company) SA-AG = Sigma Adrich, Astro-grade (less K40) SA-CG = Sigma Adrich, Crystal-grade BH = Beijing Hamamatsu (China) 3

KIMS-NaI detector module NaI-002 in a Cu case PMT R12669SEL CsI CsI CsI CsI Hamamastu R12669 PMTs are attached v Supposed same PMTs with recently upgraded DAMA PMTs v ~35% quantum efficiency at 420nm Light Yield: ~15 photoelectrons/kev v Consistent with ANAIS-25 Data taking v 400MHz Flash ADC (Notice Korea) q Flexible trigger logic with FPGA q Trigger condition: 1 PE/PMT within 0ns CsI CsI CsI CsI CsI ~200 ns decay time 4

Intrinsic Background 40 K Coincidence signals NaI-001 ~ 3keV 1460keV DAMA crystals : ~20 ppb 1.25 ± 0.09 mbq/kg 41.4 ± 2.99 ppb Geant4 simulation on efficiency NaI-001 NaI-002 NaI-003 NaI-004 NaI-005 NaI-006 K (ppb) 41.4 ± 3.0 49.3 ± 2.4 25.3 ± 2.4 > 1 40.1 ± 4.2 > 150 5

Intrinsic Background 40 K NaI-001 NaI-002 NaI-003 NaI-004 NaI-005 NaI-006 K (ppb) 41.4 ± 3.0 49.3 ± 2.4 25. 3 ± 2.4 > 1 40.1 ± 4.2 > 150 Powder AS AS SA-AG SA-CG AS SA-CG K (powder)?? 25.07 ~200? ~200 NaI-003 used Sigma Adrich Astro-Grade (SA-AG) powder 25 ppb NaI-004 & NaI-006 used Crystal-Grade (SA-CG) powder All Alpha Spectra prepared powders (NaI-001, NaI-002, NaI-005) ~ 40 ppb levels NaI powder is a key of K contamination We will grow one another crystal using different batch of SA-AG powder v ~ ppb from ICP-MS by Sigma Aldrich 6

Intrinsic Background (alpha analysis) alpha Radionuclei NaI-001 [mbq/kg] NaI-002 [mbq/kg] 238 U ( 214 Bi) <0.007 <0.001 gamma 228 Th ( 216 Po) <0.012 0.002±0.001 2 Po 3.28±0.02 1.76±0.01 Total alphas 3.29±0.02 1.77±0.01 238 U and 228 Th contaminations were very small!! 232 Th chain α α coincidence 238 U chain β α coincidence 232 216 Rn Po τ = 209 ms 214Po 214Bi τ = 237 μs 7

Intrinsic Background 2 Pb alpha gamma Most of alphas are coming from 2 Po Broken equilibrium (Rn-222 contamination) during powder or crystallization Total alpha (mbq/kg) NaI-001 NaI-002 NaI-003 NaI-004 NaI-005 NaI-006 3.29 ± 0.01 1.77 ± 0.01 2.29 ± 0.03-0.47 ± 0.01 1.81 ± 0.02 Powder AS AS SA-AG SA-CG AS SA-CG NaI-005 had better treatment of chemical process on powder and better control of Rn contamination during crystal growing 8

Intrinsic Background 2 Pb Total alpha (mbq/kg) alpha gamma Most of alphas are coming from 2 Po Broken equilibrium (Rn-222 contamination) during powder NaI005 or crystallization NaI005 (first week at Y2L NaI-001 NaI-002 NaI-003 NaI-004 NaI-005 NaI-006 3.29 ± 0.01 (after 4 weeks) NaI002 2 1.77 2.29 Pb - 0.47 (after 1.81 two ± 0.01 ± 0.03 ± 0.01 years) ± 0.02 Powder AS AS SA-AG SA-CG AS SA-CG NaI-003, NaI-004, and NaI-005 had better treatment on air (Rn) contact during crystal growing NaI-005 had better treatment of chemical process on powder 9

Intrinsic Background 2 Pb Crystal manufactured at April, 2013 Crystal manufactured at April, 2014 Crystal manufactured at Jul, 2014 Crystal manufactured at Oct, 2014

To understand and reduce 2Pb contamination Alpha counter v 2Po in NaI powder v See M.H.Lee s talk Well- type HPGe detector v 2Pb in NaI powder v Will be installed at Y2L UltraLo-1800 at Y2L (ionization chamber) Purification of NaI powder with ion- exchange resin v ~ 300 reduction of Pb with dirty NaI powder v ~ reduction of Pb with normal NaI powder v Will grow crystals with and without resin purification TAUP 2015, Hyun Su Lee, Institute for Basic Science 11

Background understanding Including most of possible internal & external components v Some cosmogenic components were not included yet Amount of each background components are in general floated for the likelihood fit Final optimization is underway 12

Internal/External background Te/I cosmogenic activation plus 40 K NaI-002 NaI-005 NaI-002 40 K=49 ppb 2 Pb=1.8 mbq/kg We achieved ~2 dru at 6keV ~ 0.5 dru caused by internal backgrounds ( 2 Pb) v Additional ~0.7 dru at 2-4 kev due to 40 K Simulation for external and cosmogenic activation is under development ~ 1.5 dru caused by external and cosmogenic Goal : less than 1 dru (both less than 0.5 dru) 13

Prototype liquid scintillator veto system We prepared liquid scintillator active veto system v Veto efficiencies for sources from PMT radioisotopes (U, Th, K) were greater than 80% at low energy (0- kev) Liquid Scintillator (LS) Prototype Internal 40 K ~ 40% veto efficiency NaI-002 crystal 14

Preliminary result of LS veto system Energy spectrum of LS detector 6 6 5 5 # of events 4 3 2 # of events 4 3 2 1 0 500 00 1500 2000 2500 3000 3500 4000 Energy(keV) 0 20 30 40 50 60 70 80 90 0 Energy(keV) kev veto threshold 15

Preliminary result of LS veto system 3 Counts/kg/keV/day 35 30 25 20 15 5 Counts/keV/kg/day 2 1-1 h_multiple h_single h_total Total hit Total hit h1 h1 Entries 2446538 85385 Entries Mean Hit 20113 7248 on 3387313 NaI 407.3 219.7 only Entries Mean 12865 307.9 RMS 364.4 333.9 RMS Mean Vetoed 66.83 48.01 5.52events 361.4 RMS 24.75 25.94 5.928 Underflow 0 Overflow 0 Hit on NaI only Vetoed events 0 200 400 600 800 00 1200 1400 1600 Energy (kev) After veto ~2 dru background from NaI-002 @ 5keV (~ 1.5 dru from internal 2 Pb) 3keV 40 K can be much reduced with thinker LS 0 0 5 15 20 Energy (kev) 16

Shield for NaI 200kg experiments NaI crystal Array 12.5kg X 16 crystals=200kg 40cm Thick liquid scintillator active veto To reduce the PMT related backgrounds Underground space is ready Construction will be finished by end of this year 17

Effective reduction of 40 K Count/keV/kg/day ~80% reduction 18

Prospect of NaI(Tl) crystal development 40 K less <ppb (<0.2 dru @ 2-4 kev) v Powder with 40 K less than ppb is available v Effective reduction with LS veto 2 Pb less than 0.2 mbq/kg (<0.25 dru @ 2keV) v Powder purification v Better control of Rn contamination during crystal growing External (<0.5 dru @ 2keV) v Prototype LS veto already reach to ~0.5 dru level Goal : 200kg NaI detectors (less than 1 dru background) v More than 3 years stable data taking v Unambiguous test of DAMA/LIBRA signatures 19

Prospect of NaI(Tl) crystal development 200 kg 3 year 20

Phase-I experiment Shield for 200 kg NaI experiment will be ready by end of 2015 We will have ~ 50kg NaI crystals by end of 2015 v Background levels are varied but average about 2 dru One year data taking during 200 kg NaI will be ready Take advantage of good pulse shape discrimination Number of events 240 220 200 180 160 140 120 0 80 60 40 20 Nuclear recoil (a) 1-2 kev JHEP, 08 (2015) 093 0 4.6 4.8 5 5.2 5.4 5.6 5.8 6 ln(mt) (ln(ns)) (c) 3-4 kev Electron recoil Cross-section (pb) -3-4 -5-6 -7 Number of events 0 kgk year 180 160 140 120 0 TAUP 2015, Hyun Su Lee, Institute for Basic WIMP Science Mass (GeV/c ) 80 60 40 20 (b) 2-3 kev ln(mt) (ln(ns)) 2 Expected (2 dru, 2 kev) ± 1σ ± 2σ Expected (1 dru, 1 kev) DAMA 3σ 0 4.6 4.8 5 5.2 5.4 5.6 5.8 6 (d) 4-5 kev 2 3 4 21

Thank you for your attention

Backup

KIMS (Korea Invisible Mass Search) Dark matter search at Yangyang underground laboratory v May have new laboratory in Samcheok Funded by National Research Foundation of Korea (2000) v Dark matter (DM) search with CsI(Tl) crystals (KIMS-CsI) Establishing the Center for Underground Physics (CUP) in the Institute of Basic Science (IBS) (2013) v Upgrade of KIMS-CsI v DM searches with NaI(Tl) crystals (KIMS-NaI) v DM searches with low temperature detector (KIMS-LT) 24

Yangyang Underground Laboratory (Upper Dam) Y2L Korea Middleland Power Co. Yangyang Pumped Storage Power Plant Seoul 700 m (Power Plant) (Lower Dam) Minimum depth : 700 m Access to the lab by car (~2km) 25

Underground laboratory KIMS-NaI room New lab. ~ 200 m 2 Underground space for the KIMS-NaI was already prepared in Y2L v,000 class clean room v Rn free air will be supplied v Size of detector room ~50 m 2 26

Preliminary design of KIMS-NaI 2.4 m 2.4 m 2.6 m 200 kg NaI v 30 cm liquid scintillator veto (Active veto) v 6 cm Cu v 20 cm lead v Muon veto (3 cm plastic scintillator) v 30 cm Polyethylen 27