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Mock-up detector simulation 제 9 회 RENO collaboration meeting

Mock-up detector simulation 제 9 회 RENO collaboration meeting. I. S. Jeong*, C. W. Park RENO Collaborators. Contents: 1) MockUp Introduction 2) Structure Summary a. Bridges(Target, Gamma-Catcher) b. Chimney(Short Chimney) c. PMT Holder d. Baffle

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Mock-up detector simulation 제 9 회 RENO collaboration meeting

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  1. Mock-up detector simulation제9회 RENO collaboration meeting I. S. Jeong*, C. W. Park RENO Collaborators

  2. Contents: 1) MockUp Introduction 2) Structure Summary a. Bridges(Target, Gamma-Catcher) b. Chimney(Short Chimney) c. PMT Holder d. Baffle e. Updated Version(Optional) f. New Positioning 3) Analysis(Quick-Check)

  3. MockUp Definition of MOCK-UP: In common usage, a mockup is a scale model of a structure or device, usually used for teaching, demonstration, testing a design, etc. - WIKIPEDIA Figure 2. RENO Mock-Up detector Figure 1. RENO Main(full-sized) detector

  4. Bridge(Target) 290mm confirmation Target Position(Z=-445mm) G4double tXaxis0 = 216.5 G4double tXaxis1 = 0 G4double tXaxis2 = -216.5 G4double tXaxis3 = -216.5 G4double tXaxis4 = 0 G4double tXaxis5 = 216.5 G4double tYaxis0 = 125 G4double tYaxis1 = 250 G4double tYaxis2 = 125 G4double tYaxis3 = -125 G4double tYaxis4 = -250 G4double tYaxis5 = -125 Unit:mm

  5. Bridge(Gamma-Catcher) Gamma-CatcherPosition (Z=-850mm) G4double gXaxis0 = 357.2 G4double gXaxis1 = 0 G4double gXaxis2 = -357.2 G4double gXaxis3 = -357.2 G4double gXaxis4 = 0 G4double gXaxis5 = 357.2 Radius Radius of buffer tank: 1100mm G4double gYaxis0 = 206.23 G4double gYaxis1 = 412.5 G4double gYaxis2 = 206.23 G4double gYaxis3 = -206.23 G4double gYaxis4 = -412.5 G4double gYaxis5 = -206.23 Curvature √Gap Between bridge & Stainless steel: 5mm Gamma-Catcher Bridge Length: 490mm → 495mm Implementation Thickness of stainless steel:5mm Height and width

  6. Chimney(Short Chimney) Middle Chimney Short Chimney

  7. Prototype Holder Test in the Drum 37.1847° PMT Holder d:depth D:Diameter H:Height T:Thickness Realistic Holder PMT middle holder’s design confirmation Holder Parameter

  8. Baffle(Top,Bottom) Confirmation Top Baffle After adjustment Top & Bottom Bottom Baffle

  9. Baffle(Side) Side Baffle Side

  10. Updated Version(Optional) Baffle – Cont’More Realistic for the Top CABLE WAY CABLE WAY 231.5mm 277mm Updated Baffle(Top)

  11. New Positioning for the Baffle Analysis • Because Baffles is over the buffer region, we couldn’t know how it run. Baffle이 Buffer를 넘어버려 이들의 Effect를 볼 수 없음

  12. Etc(Viton Analysis) - ready SiliconPAD가 없을 경우 Viton에 대한 geometry SiliconPAD가 있을 경우

  13. P.E. Analysis(Quick-Check) 1) Nothing 2) Only Target Bridge 3) Only Gamma-Catcher Bridge 4) All Bridge 5) Only Holder 6) Only Baffle 7) Holder & Baffle

  14. Bridge Analysis Nothing Only Gamma-Catcher All Bridge Only Target

  15. Holder & Baffle Analysis Baffle with Holder Only Holder Only Baffle

  16. Offset Analysis + 10mm offset - 20mm offset

  17. Source Calibration( Ge) 68

  18. Summary Chimney, Bridge(Target, Gamma-Catcher), Holder, Baffle, Viton등 축소형 검출기를 위한 MC에 모두 구축되어 있음(cable 제외) Todo list MC(for MockUp) Stability Check Energy, Vertex Calibration using the Source(Co137, Ge68...)

  19. Backup

  20. Quick Comparison Without Bridge With Bridge

  21. TYVEK Overlapped noTYVEK(X & Zaxis) Overlapped TYVEK(X & Zaxis) Without TYVEK(X-axis) With TYVEK(X-axis) Without TYVEK(Z-axis) With TYVEK(Z-axis)

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