1 / 16

SksMinus status 19

SksMinus status 19. HB meeting 2009/2/06 白鳥昂太郎. Contents. Trigger rate study In particular , S trigger ( 子熊とりがー ). Trigger candidate of E13 experiment. (K - , p - ) reaction : True trigger ( 積極的に検出 ) Hypernuclear production : A Z(K - , p - ) A L Z

laszlo
Download Presentation

SksMinus status 19

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. SksMinusstatus19 HB meeting 2009/2/06 白鳥昂太郎

  2. Contents • Trigger rate study • In particular, S trigger (子熊とりがー)

  3. Trigger candidate of E13 experiment • (K-, p-)reaction : True trigger (積極的に検出) • Hypernuclear production : AZ(K-, p-)ALZ • Quasi-free : n(K-, p-)L, n(K-, p-)S0, p(K-, p-)S+ pK=1.5 GeV/cでは、これらすべての反応がSksMinusのacceptanceに入る • その他色々 : N(K-, p-)Y+p, N(K-, p-)Y+N+p, A(K-, p-)A*+Y... pK=1.5 GeV/cでは、ほぼSksMinusのacceptance外か • K- beam decay (vetoed by SMF, SP0) • 2-body: K-→m-+nmbar, p-+p0 • 3-body: K-→ p-+p0+p0, p-+p++p-, m-+nmbar+p0, e-+nebar+p0 • Bema through (vetoed by BAC, SAC) • K- →K- • p- →p- • pbar, e-, m-とか

  4. Expected trigger number : 10 cm 7Li target (20 cm effective region) W/o S • (K-, p-)reaction : True trigger • n(K-, p-)L : ~600 /spill (quasi-free main) • n(K-, p-)S0, p(K-, p-)S+ : ?? • N(K-, p-)Y+p, N(K-, p-)Y+N+p... : Smaller cross section and almost out of SksMinus acceptance ⇒ 600+S trigger • K- beam decay vetoed by SMF, SP0 • 2-body: K-→m-+nmbar : 1400 ⇒ ~200 /spill • K-→ p-+p0 :400 ⇒ ~100 /spill • 3-body: K-→ p-+p0+p0, p-+p++p-, m-+nmbar+p0, e-+nebar+p0 : 80 ⇒~10 /spill ⇒ W/o veto : 1400+400+80=2880 /spill ⇒ W/ veto : 200+100+10=310 /spill • Bema through vetoed by BAC, SAC • K- →K- : 500 k/spill×0.01×0.01= 50 /spill • p- →p- : 200 k/spill×0.01×0.01= 20 /spill • pbar, e-, m-とか: とりあえず無視 (m-はp- と似たような数勘定になるが) Total w/o Ge hit : (600) + (200 + 100 + 10) + (50 + 20) + S trigger = 980 /spill + S trigger (w/o Ge hit : (600) + (1400 + 400 + 80) + (50 + 20) + S trigger = 2550 /spill + S trigger) w/ Ge hit : Total/2 = ~500 /spill + S trigger/2 w/ Ge hit : Reaction/2 + decay/3 + no-beam = ~400 /spill + S trigger/2 How much S trigger ? Ge trigger is essential !

  5. Reaction trigger for Ge hit Elementally process (quasi-free reaction) • n(K-, p-)L : L→p+p- (64%),n+p0 (36%) • n(K-, p-)S0 : S0→L+g (100%)⇒L→ p+p- (64%),n+p0 (36%) • p(K-, p-)S+ : S+→ p+p0(52%),n+p+ (48%) • p-やp0→2g, gがGeにhit ⇒おおよそ生成量とHyperball-J acceptanceで量が決まる • HBJ acceptance ~30%程度 (target内部等方生成), (p0→2gは必ずGeにhit, p-はacceptanceをhitとした) Lの場合 : 0.3*0.64 + 0.36 = 0.55 Sの場合 : 0.3*0.48 + 0.52 = 0.66 ⇒Reaction trigger/2はおおよそ妥当 (か?⇒E930 dataの再現) • pやnで周辺物質に励起状態の原子核ができ、 gを出す • Quasi-free反応で標的の原子核に励起状態ができ、それがgや核子を出す ⇒これらのプロセスでもGe hitは増加する (1はsimulation可能。2,3は難しい…)

  6. L生成cross section @ 1.5 GeV/c Quasi-freeだと変わるが、とりあえずこれで計算 : 0.3 mbくらい (q<15°) ⇒~600 /spill (500 k/spill beam, 20 cm 7Li target) (SksMinusのacceptanceを考慮)

  7. S生成cross section p(K-, p-)S+deferential n(K-, p-)S0total

  8. L, S生成cross section Total cross section • n(K-, p-)L : ~2.2 mb (exp.) • n(K-, p-)S0 : ~0.5 mb (exp.) • p(K-, p-)S+ : ~1.2 mb (exp.) Deferential cross section • n(K-, p-)L : ~0.3 mb (exp.) @ pK=1.5 GeV/c, q<15° • p(K-, p-)S+ : ~0.2 mb (exp.) @ pK=1.43 GeV/c, q<18° ( cos(q) > 0.95での平均とした) ⇒S生成trigger数はL生成と同程度として多めに見積もってみる

  9. Expected trigger number : 10 cm 7Li target (20 cm effective region) • (K-, p-)reaction : True trigger • n(K-, p-)L : ~600 /spill (quasi-free main) • n(K-, p-)S0, p(K-, p-)S+ : ~600 /spill (quasi-free main) • N(K-, p-)Y+p, N(K-, p-)Y+N+p... : Smaller cross section and almost out of SksMinus acceptance ⇒ 600+600 = 1200 /spill • K- beam decay vetoed by SMF, SP0 • 2-body: K-→m-+nmbar : 1400 ⇒ ~200 /spill • K-→ p-+p0 :400 ⇒ ~100 /spill • 3-body: K-→ p-+p0+p0, p-+p++p-, m-+nmbar+p0, e-+nebar+p0 : 80 ⇒~10 /spill ⇒ W/o veto : 1400+400+80=2880 /spill ⇒ W/ veto : 200+100+10=310 /spill • Bema through vetoed by BAC, SAC • K- →K- : 500 k/spill×0.01×0.01= 50 /spill • p- →p- : 200 k/spill×0.01×0.01= 20 /spill • pbar, e-, m-とか: とりあえず無視 (m-はp- と似たような数勘定になるが) Total w/o Ge hit : (600 + 600) + (200 + 100 + 10) + (50 + 20) = 1580 /spill (w/o Ge hit : (600 + 600) + (1400 + 400 + 80) + (50 + 20) = 3150 /spill) w/ Ge hit : Total/2 = ~800 /spill w/ Ge hit : Reaction/2 + decay/3 + no-beam = ~700 /spill Ge hitの見積もりに依るが、Trigger rateは現DAQではギリギリ ⇒ Ge triggerをGe×PWOか?

  10. 各targetでのtrigger

  11. 4LHe 反応を羅列 • True : 4He(K-, p-)4LHe ⇒ 4LHeのdecay • g-decay : 4LHe*→4LHe+g • Weak decay : 4LHe→4He+p0, 3He+n+p0,3He+p+p- • Quasi-free production • 4He(K-, p-)3He+L : L decay • 4He(K-, p-)3He+S0 : S0decay • 4He(K-, p-)3H+S+ : S+decay • 3H*, 3He*, 4He(K-, p-) 3N+Y, 2N+N+Y, N+N+N+Yは無視 特殊な条件 • 物質量が小さい : n(K-, p-)L : ~80 /spill • Targetが長い ⇒Mainにはbeam decayが効く

  12. Expected trigger number : 25 cm 4He target (40 cm effective region) • (K-, p-)reaction : True trigger • n(K-, p-)L : ~80 /spill (quasi-free main) • n(K-, p-)S0, p(K-, p-)S+ : ~80 /spill (quasi-free main) • N(K-, p-)Y+p, N(K-, p-)Y+N+p... : Smaller cross section and almost out of SksMinus acceptance ⇒ 80+80 = 160 /spill • K- beam decay vetoed by SMF, SP0 • 2-body: K-→m-+nmbar : 2800 ⇒ ~400 /spill • K-→ p-+p0 :800 ⇒ ~200 /spill • 3-body: K-→ p-+p0+p0, p-+p++p-, m-+nmbar+p0, e-+nebar+p0 : 160 ⇒~20 /spill ⇒ W/o veto : 2800+800+160=3760 /spill ⇒ W/ veto : 400+200+20=620 /spill • Bema through vetoed by BAC, SAC • K- →K- : 500 k/spill×0.01×0.01= 50 /spill • p- →p- : 200 k/spill×0.01×0.01= 20 /spill • pbar, e-, m-とか: とりあえず無視 (m-はp- と似たような数勘定になるが) Total w/o Ge hit : (80 + 80) + (400 + 200 + 20) + (50 + 20) = 850 /spill (w/o Ge hit : (80 + 80) + (1400 + 400 + 80) + (50 + 20) = ~4000 /spill) w/ Ge hit : Total/2 = ~450 /spill w/ Ge hit : Reaction/2 + decay/3 + no-beam = ~300 /spill Decay vetoで大幅にtrigger rateを減らせる

  13. 7LLi, 10LB, 11LB, 19LF (+ 12LC, 16LO) • どれも10 cmのtarget長なのでreaction triggerがmainになる • 標的の核子数が多く、励起状態からの粒子放出が増えるので、Geが鳴る割合が増える • g放出 ⇒ gによるGe trigger • 核子放出 ⇒ 周辺物質からのbackground g • Ge triggerにも依るが、trigger rateは現DAQではギリギリ ⇒ Ge triggerをGe×PWOでどの程度まで改善できるか?

  14. Summary • S reaction triggerはLと同程度 • 4LHe実験はdecay eventでtrigger数が決まる ⇒単純な(K, p) triggerとGe triggerでも問題なし • 7LLi,10LB,11LB, 19LF(+ 12LC, 16LO)実験ではGe triggerを工夫しないと若干厳しい • 1k /spill程度のtrigger rateならば、安直に早いADC, TDCモジュールの導入が理想的 • 将来的に10 M/spillのintensityが出たときにどうするか? • 800 /spill (@500 k/spill)⇒16000 /spill !

  15. E930 trigger condition • KPi = Kin×Piout : 1.1 k/spill • Kin = 200 k/spill • Piin = 70 k/spill • KPinon-bias= Kin×Piout : 2.4 k/spill • W/o Forward veto • 2nd level trigger : Ge hit • Ge OR (one of Ge detector has hit) • Vetoed : Overflow of all ADC data ⇒KPi trigger was reduced to 28%. ⇒Trigger rate : 0.31 k/spill

  16. 48D48 acceptance • 60 msr

More Related