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いちえいひのと
5 years ago
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1 SK-Gd (ICRR)

2 SK-Gd SK!2

3 !3

4 ls of SK Solar ν measurement rvation of day-night asymmetry far, B8, 2.5σ indication Hep reported at NEUTRINO2014) nalizing all SK-IV data very of the transition of ino oscillation between matter acuum in the Sun. e can θ12, see the transition region sing 8 B spectrum Δm So called 2 21 upturn e are now working on; Lower MSW energy threshold Reduce more BG something Matter unexpected dominant Vacuum on Standard Interaction exist? dominant Vacuum Sola ν flux and survival probability KamLAND Δm 2 Solar Δm 2 Transition region Matter Solar ν energy in MeV 6 MSW!4

5 解析手法の改善 PMT gainの相対変化新しいゲイン補正後のヒット数 PMTのゲインが徐々に増加してお Dark noise charge peak w.r.t. April PMT PMT 2003 PMT 2004 PMT 2005 PMT りそれに伴いヒット数も増加 LowEではいくつかの手法を用いてキャリブレーションを行っている前述のミューオンから崩壊した電子ヒット数増加の効果を実データを中性子発生装置:DTG 用いて評価しこれを補正するよ電子線LINAC うにエネルギー再構成手法を改善 %の精度でエネルギーを決定する 1 など /01/09 01/01/10 01/01/11 01/01/12 01/01/13 01/01/14 01/01/15 01/01/16 01/01/17 ミューオンから崩壊した電子のヒット数の時間変動 date Neff ミューオン崩壊電子に対数る実効hit数従来の解析手法 Preliminary 改善した解析手法 Preliminary ± 0.5 % 279 ± 0.5 % Year!5

6 太陽ニュートリノフラックス Flux and its time dep Flux and its time dependence SK-IV (2860days) signal extraction Flux and Sun solar spotν number SK-IV (2860days) solar ν signal extraction 2018年1月までのデータ SK-IV live days: 2860days を用いて解析改善したエネルギー再構成手法を用いて事象選択 SK-IV SK-III , (stat.) events +363 これまでに9万事象以上の太陽ニュートリノを観測 SK-I SK-II 55, (stat.) events ニュートリノフラックスは各時期間でコンシステント Average 10 flux 6(SK-I~IV): Average flux (SK-I~IV): 2.33±0.04(stat.+sys.) /cm2/sec 2.33±0.04 E kin [MeV] Livetime[day] Extracted signal 6 /cm2/sec] Extracted signa 8B[MeV] Flux [ 10 E kin Livetime[day] SK-I ±226 (stat.) ±0.02(stat.)±0.08 (sys.) ±226 (s SK-I 1496 SK-II SK-III SK-IV ±0.05(stat.) (sys.) (stat.) SK-II ±0.04(stat.)±0.05 (sys.) (stat.) SK-III ±0.02(stat.)±0.04 (stat.) SK-IV (sys.) (st (st (!6

7 Data/MC (unoscillated) Kamland Δm 2 Solar Δm 2 SK I/II/III/IV LMA Spectrum Quadratic fit Exponential fit Preliminary in MeV E kin Solar Δm 2!7

8 χ 2 m 2 21 in 10-5 ev σ 2σ 1σ sin 2 (Θ 12 )= m 2 21=( ) 10-5 ev 2 sin 2 (Θ 12 )=0.310±0.014 m 2 21 =( ) 10-5 ev 2 sin 2 (Θ 12 )=0.310±0.012 m 2 21 =( ) 10-5 ev 2 KamLAND Solar data (Mostly SK+SNO) All combined sin 2 (Θ 13 )=0.0219± Very Preliminary 1σ 2σ 3σ sin 2 (θ ) χ 2 12 sin 2 (Θ 12 )= m 2 21=( ) 10-5 ev 2 sin 2 (Θ 12 )=0.310±0.014 m 2 21 =( ) 10-5 ev 2 sin 2 (Θ 12 )=0.310±0.012 m 2 21 =( ) 10-5 ev 2 sin 2 θ12 SK, SNO KamLAND) Δm σ!8

9 Solar neutrino non-standard interactions (NSI) NSI NSI spectrum fit No NSI: NSI Best Fit d-quark Atmospheric neutrino NCQE interaction Events/1 MeV PRELIMINARY NCQE visible energy spectrum Data NCQE Single pion Multi pion Non-NC Accidental Preliminary Energy (MeV)!9

10 SK-Gd!10

11 SK-Gd J. F. Beacom and M. R. Vagins, Phys. Rev. Lett. 93 (2004) Gd Captures on Gd 0.1% Gd 90% Super-K 100 Gd 2 (SO 4 ) % Gd ~50% 10 Gd 2 (SO 4 ) 3 Gd 0.1% 90% 8MeV γ e +p! e + +n % 0.001% 0.01% 0.1% 1% + x Gd! x+1 Gd + (s) +H! D+ Gd in Water (2.2 MeV) Delayed neutron capture τ ~ 30μsec at 0.2% Gd2(SO4)3 (8 MeV) (e + ) (n) νe Prompt signal!11

SK-Gd 10 17 Si-burning NOW billion years ago 10

flux Horiuchi, Beacom and Dwek, PRD, 79, 083013

12 SK-Gd Si-burning NOW billion years ago 10 billion years ago Beginning of the universe SRN flux Horiuchi, Beacom and Dwek, PRD, 79, (2009) Position Energy (MeV)

13 SK-Gd RI Gd RI Gd 200 (EGADS) SK 500 Gd SK SK SK!13

14 SK 2018 SK 1 1 Gd 120t/h Gd Gd (PMT) PMT !14

15 !15

16 SK Gd!16

17 120 t/h!17

18 SK-Gd SK tank Ultrapure water Supply(30t/h) 30 t/h Well pumps SK tank Using fast recirc. system but with normal MB instead of AJ4400 Recirculation (60t/h) Gd 60 t/h SK water system Gd water system 10!18

19 PMT RI 2001 SUS!19

20 X 202X+n (~2.5 ) Run %Gd T2K T 1 : 10 Gd 2 (SO 4 ) %Gd ~50% n T 2 : 100 Gd 2 (SO 4 ) 3 0.1%Gd ~90% n!20

21 SK-IV SK-Gd %Gd!21

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untitled masato@icrr.u-tokyo.ac.jp 996 Start 997 998 999 000 00 00 003 004 005 006 007 008 SK-I Accident Partial Reconstruction SK-II Full reconstruction ( SK-III ( ),46 (40%) 5,8 (9%),9 (40%) 5MeV 7MeV 4MeV(plan)