TRIGGER & T0 for RUN 2016 V. Yurevich meeting CAEN digitizer T0
Beam / Trigger Detector System BC1 T0 VC BD SiD BC1 – Beam Counter (70×70×5 mm scintillator, FEU87) T0 – Start detector (different types) BC2 – Beam Counter (12diam. ×3 mm scintillator, SiPMs or XP85012) VC – Veto Counter (100diam. ×10 mm scintillator with hole 27-mm diam., XP85012) BD – Barrel Detector with 40 scintillation strips and SiPMs (40 channels) SiD – Si Detector (40 channels) N. Zamyatin, S. Habarov BC2 Beam 0+15 Z (cm) Target
T0/Trigger group STC “NPR” St. Petersburg Si Detector group Scheme of Trigger Detectors & Electronics
Target Area 40 scintillation strips 7×7×150 mm, BC418 SiPMs 6×6 mm, Sensl Active area: diameter = 93 mm, length = 150 mm Barrel Detector 0.5-mm still tube (80 mm diam.) Carbon tube Target BD electronics LVDS pulses, HDMI cables to T0U module Si Detector SiD electronics Barrel detector 40 ch. to SiD module LVDS pulses, HDMI cables Beam Trigger gate from T0U 30° 11° 80 mm 30° 150° NIM, TTL? Delay? Pulse width?
T0 (Start) detector Three different detectors are prepared for TOF tests with d-beam: 1.12×12×10 mm quartz + 4 SiPMs 2.12×12×100 mm quartz (45 deg.) + MCP-PMT (4 SiPMs ?) 3.7×7×40 mm scintillator BC SiPMs (2 units) Then the best one will be used in run Study of full chain of electronics with cables in TOF measurements with cosmic rays and two Cherenkov modules of T0 detector Test in March-April 2016 T0 – start, RPC – stop T0 chain: T0 detector, FEE, HDMI cable, T0U module, Molex cable,TDC72 – readout electronics
Test of Neutron Detectors ND1 ND2 Barrel Detector Target Beam ND1 – 8 stylbene crystals (13×13×13 mm) + MCP-PMT XP85012 ND2 – 8 BaF2 crystals (13×13×10 mm) + MCP-PMT XP85012 (available T0 module is used) Aim of study: TOF measurement of neutron spectrum from 0.5 to 300 MeV at small flight path of 25 cm with time resolution σ < 100 ps Neutron detector prototypes: ND electronics unit Neutron trigger logic CAEN digitizer LVDS pulsesMain trigger pulses BTL1 (Min Bias) ND1ND2 ND1ND2T0 Analog pulses Trigger L1L2L3 Main trigger logic pulses L=25 cm
Triggers Logic 1 (Minimum bias) = BT &( (N BD +N SiD )>N1)) Logic 2 (Central +Semi-central) = BT&((N BD +N SiD )>N2) Logic 3 (Central) = BT&((N BD +N SiD )>N3) Logic 4 BT&(N BD >N2 and N SiD >N3) Logic 5 BT&(N BD =2 & 180 deg.) Logic 6 Beam Trigger BT(1:N) = BC1&T0&BC2&VCveto (1 : N) Logic 7 Generator out of Spill List of main triggers: T0 L1 L2 L3 Physics Calibration Beam trigger BT= BC1&BC&T0&VC(veto) N = N BD +N SiD
Special Trigger for pp events: Logic 5 = BT & (N=2) & (2 pulses from opposite strips, 20 possible combinations) T ° 11° Scintillation strips p p d Barrel Detector Targets: polyethylene, carbon
Control of Counts on Trigger Display Detectors: Beam Condition: Trigger: Ratios: BC2/BC1, T0/BC1, VC/BC1, BT/BC1 Beam Trigger (BT), BMN Trigger (T BMN ), Valid T BMN = T BMN & Busy( Veto ) Beam detectors: BC1, T0, BC2, VC Detectors triggering interaction in target: Barrel Detector (40 ch.), Si Detector (40 ch.) Live Time: Ratio: Valid T BMN / T BMN
Targets for Runs with d beam NTargetThickness (h/λ I, % ) 1Polyethylene40 mm (~5%) 2C18 mm (~5%) 3Cu7 mm (~5%) 4Pb8 mm (~5%) 5No target_
Questions for DAQ Multihit TDC Available TDC ? inputs: BC1, T0, BC2, VC, ZDC, … Beam Trigger (BT), Min bias Interaction Trigger (L1) Aims: 1.Before / After protection 2.Input register Optical readout of CAEN digitizer and include these data into event Scalers: counts per spill (Data from neutron detectors, beam detectors)
Plan for first days of run 1.Beam tuning (1-2 days): - study of beam position, profile (FWHM < 3-5 mm), intensity, uniform distribution into ~3-second spill - detector alignment 2.Study with deuteron beam (1-2 days): - time resolution of T0 detectors and TOF detectors - detector responses and characteristics - electronics, trigger and DAQ operation 3. Start of physics run