Attention:
In case of a system failure just reboot the computer (switch on). The data acquisition program will start automatically.
Summary
The device detects cosmic particles (mainly myons) which are produced by the reaction of cosmic radiation with atomic nuclei or molecules in the upper atmosphere. The system consists of 2 sensor boxes, a data aquisiton system, GPS antenna and a netbook.
Manufacturer | DESY |
---|---|
Model | |
Serial No. | n/a |
Type | small scale facility |
Contacts
Name | Institution | Role |
---|---|---|
Michael Walter | DESY | Principal Investigator |
polarstern dship | Alfred-Wegener-Institute | dship connector |
Components
All components are in the Aerologie lab (A-108). The system consits of 2 sensor boxes, a data acquisiton system, GPS antenna and a notebook (Linux, Xubuntu 16.04).
In each sensor box is a scintillator, which emits scintillation light when charged particles transmit. The light is transmitted to the photosensor (silicium-photomultiplier by Hamamatsu) via optical fiber. A HV module within the box converts the 5V input power supply to the supply voltage of 70V for the photomultiplier. The signal of the photomultiplier is transmitted to the data acquisition unit. The data acquisition unit needs a 15V power supply, provides the 5V power supply for the sensor boxes, amplifies and links the signals from both boxes, produces and transfers data files via USB cable to the notebook, and faciltiates an input port for signal transmission from the GPS antenna.
The data acquisition unit and the GPS box are connected via cable. The antenna is mounted at the railing above the starboard outside door.
In each sensor box is a scintillator, which emits scintillation light when charged particles transmit. The light is transmitted to the photosensor (silicium-photomultiplier by Hamamatsu) via optical fiber. A HV module within the box converts the 5V input power supply to the supply voltage of 70V for the photomultiplier. The signal of the photomultiplier is transmitted to the data acquisition unit. The data acquisition unit needs a 15V power supply, provides the 5V power supply for the sensor boxes, amplifies and links the signals from both boxes, produces and transfers data files via USB cable to the notebook, and faciltiates an input port for signal transmission from the GPS antenna.
The data acquisition unit and the GPS box are connected via cable. The antenna is mounted at the railing above the starboard outside door.
Position
Origin Description: | no xyz-position given, device located on deck A in room A112 |
Data logging, storage and archiving
Logged parameters
Parameter | Sensor Output Type | Unit |
---|---|---|
amount of cosmic particles | amount | number |
Central geographical ship's position and time standard
No online time needed for data acquisition. Time stamp needed to identify ship's position and weather data for offline processing.
No online position needed for data acquisition. Offline data processing is conducted with ship's position and weather data via time stamp.
No online position needed for data acquisition. Offline data processing is conducted with ship's position and weather data via time stamp.
Rawdata storage on board
Raw data is stored in ASCII files on SD memory card and USB stick connected to the notebook. A LAN cable connects the notbook to the data network of Polarstern. Data transfer to DESY per e-mail once a day.
Data archiving on land
Data is archived at the DESY: http://cosmicatweb.desy.de/ctplot/
Documentation
The manuals are located in the folder at the detector on board.