Pellet target developments at ITEP A Gerasimov V

Pellet target developments at ITEP A. Gerasimov, V. Chernetsky, M. Büscher, P. Fedorets, A. Kantsyrev, E. Lushchevskaia, V. Panyushkin, A. Bogdanov, A. Dolgolenko, P. Balanutsa, E. Ladygina, L. Gusev, S. Mineev, I. Tarasenko, V. Demekhin, S. Makagonov, D. Bogachenko, N. Kristi, V. Karasev Institute for Theoretical and Experimental Physics named by A. I. Alikhanov of National Research Centre «Kurchatov Institute» Moscow, Russia PANDA Meeting, Darmstadt, March 05 -09, 2018

Current activities 1. Data acquisition system for target (present version) 2. New software for delay and piezo generators 3. Advanced data acquisition with PLC (first test) 4. LED backlighter + multi-pulse mode 5. Development of the adjustment system 6. Data analysis and tuning of the geometrical and thermo-physical parameters 7. Transfer of the first prototype from FZJ to ITEP 8. Preparation of the draft of the TDR

Data acquisition system for target (present version) • • • Remote controlled system via TCP/IP sockets Delphi XE 2 language software for Windows PC Local Hard disk data saving Gas flow control Temperatures Heater control Pressure

New software for delay and piezo generators Signal generator Rigol DG 4202 for piezo rings Delay generator Stanford DG 645 for backlighter Ethernet interface Signal amplifier TABOR El. 9100 Delphi XE 2 software Signals 10 ns – 1 ms Piezzo Ring (installed on to holder of nozzle) Signal to piezo rings : • Amplitude: up to ± 100 V • Frequency up to 1 MHz Delphi XE 2 software Driver for Powerful LED LUXEON V-Star

Advanced data acquisition with PLC (first test) Using of PLC (Programmable logic controllers) provide stable, autonomous readout and store of pellet target parameters to My. SQL database Delay generator ICPDAS XPAC XP 8041 Database PLC Controller (Windoss Embedded + Visual Studio) SQL request TCP/IP Sockets protocol Pressure readout Pfeiffer TPG 256 . . . PHP, WEB interface Delphi XE 2 user programs ICPDAS μPac 7186 (C language) Local controllers – Heater controller

LED backlighter + multi-pulse mode Parameters • • MOSFET driver scheme Powerful LED LUXEON V-Star (800 m. W) Min exposure: 100 ns Power supply 30 V 5 pulses with duration 300 ns each, repetition rate 1 MHz Lenses -Sigma DG APO Macro 180 mm f/ 2. 8 Posibility of visualisation of pellet movement at one image Light signals obtained by Hamamatsu R 760 photomultiplier

Development of the adjustment system Idea: • MDC Vacuum BLM-133 -1 -03 UHV linear actuator (proposed) • Movement by stepper motors, 3 µm linear steps • Onitex OSM-42 R controller

Development of the adjustment system Present system of linear actuator + stepper motor operated via L-CARD E 14140 controller is prepared for tests Linear actuator Stepper motor

Development of the adjustment system two options for fixation of the sluice are under study: lower end (on the membrane) or upper end (on the bottom of triple point chamber (TPC)) Lower end on membrane upper end on bottom of TPC Triple point chamber (TPC)

Data analysis Determination of the droplet velocity in the triple point chamber Profile of the droplet stream Distance droplet-droplet, μm Z Example from tests in 2018 f=445 k. Hz droplet Z , μm velocity = average distance x f ≈ 33 m/s

Transfer of the first prototype from FZJ to ITEP • Tax free permission is obtained from the Russian government in beginning of February 2018. The procedure takes one year. • The negotiations with the transport companies for the preparation of the tender is going on. • The transfer is planned in the middle of April 2018 • With the parts from the first prototype the configuration of the second prototype will be completed Preparation of the draft of the TDR • Writing of the draft of the Pellet target TDR is going on. • The prototype is not completed. Some tests for TDR can not be performed. Waiting for transfer from FZJ. • R&D studies are not finished. Some results are still absent.