a step forward exploring the inverted hierarchy region of the neutrino mass

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1 a step forward exploring the inverted hierarchy region of the neutrino mass Maria Martinez (U. La Sapienza, Rome) on behalf of the CUPID-0 collaboration 28th Rencontres de Blois, May 29 - June 03 (2016)

Outline Bolometers for neutrinoless double beta decay (0νββ): CUORE CUPID: Cuore Upgrade with Particle IDentification Scintillating bolometers for

2 Outline Bolometers for neutrinoless double beta decay (0νββ): CUORE CUPID: Cuore Upgrade with Particle IDentification Scintillating bolometers for 0νββ: LUCIFER & CUPID CUPID-0: The first demonstrator Conclusions M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 2

Experimental search for 0νββ WHAT WE ARE LOOKING FOR 2νββ: A, Z A, Z + 2 + 2e + 2 ν e allowed in the SM and already observed with T 1/2 > 10 18 y 0νββ: A, Z A, Z + 2 + 2e EXPERIMENTAL SIGNATURE

3 Experimental search for 0νββ WHAT WE ARE LOOKING FOR 2νββ: A, Z A, Z e + 2 ν e allowed in the SM and already observed with T 1/2 > y 0νββ: A, Z A, Z e EXPERIMENTAL SIGNATURE Approach: SOURCE = DETECTOR n n EXPERIMENTAL SENSITIVITY Lifetime corresponding to the minimum detectable number of events over background at a given C.L.: S 0ν ε i. a. MT bδe b 0 S 0ν ε i. a. MT b = 0 not allowed in the SM expected with T 1/2 > y If observed: lepton number violation neutrinos are Majorana particles measures effective electron neutrino mass Main signature: Peak at Q-value over 2νββ tail enlarged only by detector resolution M: ε: Total active mass in kg Detector efficiency i. a.: Isotopic abundance b: ΔE: T: Background in c/kev/kg/y Detector ROI in kev Exposure time in y M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 3

Bolometers as particle detectors Signal transmission

dlog(t) Energy release The energy release originates

converts the temperature rise in an electric signal:

M 0.75 kg C 2 x 10-9 J/K ΔT/ΔE 100 μk/mev ΔV/ΔE 300

resolution! CUORE 5 kev FWHM M. Martinez - U.

4 Bolometers as particle detectors Signal transmission & thermal link (G) Temperature sensor A = dlog(r) dlog(t) Energy release The energy release originates a temperature rise: ΔT = E C T The temperature sensor converts the temperature rise in an electric signal: Crystal absorber (C) CUORE TeO 2 bolometers: T 10 mk M 0.75 kg C 2 x 10-9 J/K ΔT/ΔE 100 μk/mev ΔV/ΔE 300 μv/mev G W/K t = C/G 1 s Excellent energy resolution! CUORE 5 kev FWHM M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 4

Evolution of TeO 2 bolometric experiments Cuoricino 40.

3 kg 130 Te) CUORE-0 39 kg TeO 2 (11 kg 130 Te) CUORE 741 kg TeO

8 10 24 yr [2] 2013-2015 0ν > 4 10 24 yr [3] Τ 1/2 (combined

5 Evolution of TeO 2 bolometric experiments Cuoricino 40.7 kg TeO 2 (11.3 kg 130 Te) CUORE-0 39 kg TeO 2 (11 kg 130 Te) CUORE 741 kg TeO 2 (206 kg 130 Te) Τ 1/2 MiDBD 6.8 kg TeO 2 (1.8 kg 130 Te) Τ 1/2 0ν > yr [1] ν > yr [2] ν > yr [3] Τ 1/2 (combined with Cuoricino) [1] Phys. Lett. B 557 (2003) 167 [2] Astrop. Phys. 34 (2011) 822 [3] PRL 115, (2015) M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 5

6 0νββ sensitivity nuclear matrix element estimates Rate 0ν 1 Τ 0ν = G 0ν Q, Z M 0ν 2 2 m ββ 1/2 PRD 90, (2014) Degenerate hierarchy 100 events/ton/yr Inverted hierarchy 1 events/ton/yr Normal hierarchy < 0.01events/ton/yr M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 6

7 0νββ sensitivity: where we are nuclear matrix element estimates Rate 0ν 1 Τ 0ν = G 0ν Q, Z M 0ν 2 2 m ββ 1/2 76 Ge 90% exclusion GERDA+HDM+IGEX 136 Xe 90% exclusion EXO-200/KamLAND-Zen 130 Te 90% exclusion CUORE-0 + CUORICINO Degenerate hierarchy 100 events/ton/yr M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 7

8 CUORE projection nuclear matrix element estimates Rate 0ν 1 Τ 0ν = G 0ν Q, Z M 0ν 2 2 m ββ 1/2 76 Ge 90% exclusion GERDA+HDM+IGEX 136 Xe 90% exclusion EXO-200/KamLAND-Zen CUORE 90% C.L. sensitivity 130 Te 90% exclusion CUORE-0 + CUORICINO Degenerate hierarchy 100 events/ton/yr Reaching Inverted hierarchy 10 events/ton/yr M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 8

9 CUPID GOAL: 10 mev (m ββ ) nuclear matrix element estimates Rate 0ν 1 Τ 0ν = G 0ν Q, Z M 0ν 2 2 m ββ 1/2 76 Ge 90% exclusion GERDA+HDM+IGEX 136 Xe 90% exclusion EXO-200/KamLAND-Zen CUORE 90% C.L. sensitivity 130 Te 90% exclusion CUORE-0 + CUORICINO CUPID Degenerate hierarchy 100 events/ton/yr Completely explore Inverted hierarchy 0.1 events/ton/yr number of ββ emitters Background M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 9

03612 α background CUORE infrastructure + isotope enrichment + particle identification to get 0 bkg at ton scale 10 1 0.

10 Counts/kg/keV/yr CUPID CUORE UPGRAGE WITH PARTICLE IDENTIFICATION CUPID Interest Group: 32 institutions β/γ background (CUORICINO CRYOSTAT) White papers: arxiv: arxiv: α background CUORE infrastructure + isotope enrichment + particle identification to get 0 bkg at ton scale To reduce background we need α discrimination Energy (kev) 76 Ge 136 Xe 130 Te 116 Cd 82 Se 100 Mo M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 10

11 CUPID R&D M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 11

12 CUPID R&D 1 st PHASE CUPID-0 M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 12

13 Scintillating bolometers for 0νββ Simultaneous measurement of heat and light HEAT SIGNAL Energy deposition LIGHT SIGNAL The light yield depends on the ionizing power of the particle Particle discrimination by the ratio HEAT/LIGHT M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 13

Scintillating bolometers for 0νββ: LUCIFER &

Cryogenics Installation For Elusive Rates ERC

CUPID-0 Characterization of scintillating

14 Scintillating bolometers for 0νββ: LUCIFER & CUPID LUCIFER Low-background Underground Cryogenics Installation For Elusive Rates ERC Advanced Grant From March 2010 March 2016 CUPID-0 Characterization of scintillating crystals interesting for 0νββ Zn 82 Se Zn 100 MoO4 116 CdWO4 M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 14

15 ZnSe detectors for 0νββ of 82 Se Excellent particle discrimination light/heat (α light yield > β/γ inverted behaviour respect to the usual one not well understood) Excellent discrimination based on the shape of the light pulse! Light vs heat JINST 8 (2013) P05021 Light pulse shape JINST 8 (2013) P05021 β/γ α Q bb = 2995 kev Q bb = 2995 kev M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 15

CUPID-0 30 Zn 82 Se bolometers 440 g each @ 95% enrichment Bolometers

Central bolometers faced to two Ge light detectors Total mass: 13.

10 kev START DATA TAKING WITHIN 2016 In construction at LNGS @ CUORE-0

16 CUPID-0 30 Zn 82 Se bolometers 440 g 95% enrichment Bolometers arranged in 5 towers. Central bolometers faced to two Ge light detectors Total mass: 13.2 kg (7 kg 82 Se) Expected ROI 10-3 c/kev/kg/y Expected ROI: 10 kev START DATA TAKING WITHIN 2016 In construction at CUORE-0 cryostat (crystals & light detectors already delivered to LNGS) M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 16

High purity enriched Zn 82 Se Se powder 96.3% enriched at URENCO Stable Isotope Group (Netherlands) Zn 82 Se synthesis and growth at ISMA (Ukraine). Final enrichment: 95.

17 High purity enriched Zn 82 Se Se powder 96.3% enriched at URENCO Stable Isotope Group (Netherlands) Zn 82 Se synthesis and growth at ISMA (Ukraine). Final enrichment: 95.4% Crystals already delivered to LNGS Isotope Cutting and LNGS Final dimensions: φ = 4.3 cm h = 5.5 cm weight 440 g Enriched powder activity (HP-Ge) Upper limit 90% CL (μbq/kg) 232 Th < U < U <74 M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 17

3 MeV) to determine α rejection power R&D cryostat @ LNGS Hall C reached a T 20 mk (Not optimized conditions!

18 First test run with CUPID-0 crystals 3 Zn82Se crystals in a single tower (total mass 1.32 kg) + 4 Ge light detectors with antireflective SiO coating α source 147 Sm (Q value = 2.3 MeV) to determine α rejection power R&D LNGS Hall C reached a T 20 mk (Not optimized conditions!) Ge light detector Zn82Se Crystal ZnSe-1 ZnSe-2 ZnSe-3 Extrapolated Q value (from γ calibration) 30.1 ± 1.7 kev 29.7 ± 1.4 kev 30.2 ± 1.7 kev 3 larger values that those expected for CUPID-0 (not optimal T) but enough for the experimental goals VM2002 (reflectant foil) arxiv: M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 18

19 Shape Parameter of Light Pulses (A.U.) First test run with CUPID-0 crystals: α discrimination power β/γ light pulses slower than α Discrimination power: DP E = μ α E μ βγ (E) Crystal 2 σ α 2 E +σ βγ E DP Q ββ ZnSe-1 12 ZnSe-2 11 ZnSe-3 10 EXCELLENT DISCRIMINATION POWER! arxiv: M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 19

20 First test run with CUPID-0 crystals Internal contamination Except from 210 Pb, contaminations in bulk or deep in surface (>0.1μm) Background: before α discrimination after α discrimination 210 Pb is the larger value, but not dangerous for ββ 530 h no events in ROI after discrimination Even better results are expected for CUPID-0 better anti-rn shield Surface treatment cosmogenic isotopes depleted (mainly 56 Co, Q value =4566 kev, T 1/2 = 79 d) Better energy resolution (lower T) arxiv: M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 20

21 CUPID-0 prospects From MC simulation of internal contaminants: contamination in bulk DP = 12 FWHM = 30keV arxiv: Background at 82 Se Q ββ (counts/kev/kg/y) after α discrimination coincidences rejection Tl 212 Bi time delay rejection cryostat γ contamination < T 1/2 = yr (90% CL) (1 yr data-taking, 0 bkg approx.) And next 2 nd PHASE: Li 2 MoO 4 MoU between INFN, IN2P3 and ITEP TeO 2 CHERENKOV M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 21

22 Conclusions Completely exploring the inverted hierarchy region of neutrino masses will require a detector with 1 ton isotopic mass and background level at the order of 0.1 counts/ton/yr. CUPID (Cuore Upgrade with Particle Identificiation) is pursuing this goal through several strategies, one of them being using scintillating bolometers. LUCIFER ZnSe crystals and Ge-light detectors fulfill the project requirements both in terms of α background rejection and energy resolution. CUPID-0, the first CUPID demonstrator with Zn 82 Se will start data-taking LNGS within A second phase with Li MoO 4 and/or TeO 2 /Cherenkov will follow. Thanks for your attention! M. Martinez - U. La Sapienza (Rome) 28th Rencontres de Blois, May 29 - June 03 (2016) 22

cryogenic calorimeter with particle identification for double beta decay search

cryogenic calorimeter with particle identification for double beta decay search Cuore Upgrade with Particle IDentification In the middle of 2015 INFN decided to support CUPID activity to develop: CUPID-0: