Array for Nuclear Astrophysics and Structure with Exotic Nuclei (ANASEN) is an active target detector. FSU, LSU, and TAM are joined in the development of the project.

First Generation

NIM paper : https://doi.org/10.1016/j.nima.2017.07.030 PRC paper : https://doi.org/10.1103/PhysRevC.105.055806

Second Generation

Section of ANASEN with twisted wire configuration

A simulation, showed the Anode wires, the Cathode wites, the SuperX3 Silicon Detector, and QQQ Silicon Detector. The simulation shows Anode-9 and Cathode-15 are hit.

The main difference from the 1st generation is the Twisted Anode and Cathode wires.

Basics Geometry

There are 5 Layers on the radial position of the ANASEN.

Twisted Anode and Cathodes

Readout

SuperX3 Silicon Detector Array

A drawing of SuperX3 silicon detector

There are 24 Super-X3 double-sided Silicon detectors on the wall of the ANASEN. They are placed 88 mm away from the beam axis. Each of them has 75 mm X 40 mm sensitive area. Thus, the super-X3 covers a forward and backward angle of 40 deg.

Readout

Tracking for the twisted wire configuration

A beam trace consists of 5 parameters: 3 from a point and 2 from the trace angle. Thus, to reconstruct the beam trace, we need at least 5 pieces of information.

Suppose we know the position on the SuperX3, thus, we have 3 pieces of information ${\displaystyle (x_{0},y_{0},z_{0})}$.