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Papers to be published. 1. Title (working version) Hadron identification in TeV energy range with Transition Radiation Detectors: possibilities and limitations. 1. Introduction Goal Radiators Detectors 2. Different approaches Straw based detectors Solid state detectors
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Papers to be published Anatoli Romaniouk, TRD mini WS, 25.04.2018
1. Title (working version) Hadron identification in TeV energy range with Transition Radiation Detectors: possibilities and limitations. 1. Introduction • Goal • Radiators • Detectors 2. Different approaches • Straw based detectors • Solid state detectors • Compton detectors 3. Particle separation power with different detectors • Separation techniques • Detector requirements • Results of simulations Draft started mid of last year. Requires updates with recent results. Anatoli Romaniouk, TRD mini WS, 25.04.2018
2. Title (working version) Straw based TRD for particle identification up to gamma factors of ~ 104. • 1. Introduction • Goal and why straw • Detector concept and radiators • 2. Test beam set up and calibration • Straw prototype description • Test beam set ups • Particles and radiators • Straw response to photons and calibration • MC model • 3. Test beam results for different radiators and comparison with MC. • Mylar • Polypropylene • Polyethylene • Low density radiatiors • 4. Discussion section with theoretical estimates • 5. Conclusions Paper printed as proceedings can be a good starting point http://iopscience.iop.org/article/10.1088/1742-6596/934/1/012053/pdf Anatoli Romaniouk, TRD mini WS, 25.04.2018
3. Title (working version) Conference and proceedings: FRONTIER DETECTORS FOR FRONTIER PHYSICS. 14th Pisa Meeting on Advanced Detectors First results of measurements of spectrum and angular distribution of transition radiation using a silicon pixel sensor on a TimePix3 chip (4 pages) • 1. Introduction • Goal and why angular distributions is important • 2. Detector description and calibration. • TimePix3 with 500 um sensor description • Spectra and calibration technique • 3. Test beam set up and trigger issues • Geometry • Particles and radiators • 4. Test beam results for different radiators and comparison with radiators. • Tracking and cluster selection • Mylar • 5. Comparison with simulations and discussion • 6. Conclusions Anatoli Romaniouk, TRD mini WS, 25.04.2018
4. Title (working version) Spectral and angular distributions of the Transition Radiation measured with TimePix3 detector • 1. Introduction • Goal and why angular distributions is important • Preliminary simulations: basic formulas description, model and results • 2. Detector description and calibration. • TimePix3 with 500 um sensor and operation modes • Spectra and calibration technique • Parameters defining detector response • 3. Test beam set up and trigger issues • Geometry • Particles and radiators • Trigger • 4. Test beam results for different radiators and comparison with radiators. • Tracking and cluster selection • Mylar • Polypropylene • Polyethylene • Other radiators • 5. Comparison with simulations and discussion • 6. Conclusions Complete and detailed paper ~ 20 pages Anatoli Romaniouk, TRD mini WS, 25.04.2018
5. Title (working version) Identification of particles with gamma factor up to 104 with TRDs based on micro strip Si technique. • 1. Introduction • Goal and why angular distributions is important • Preliminary simulations: basic formulas description, model and results • 2. Detector description and calibration. • Si strip with 300 um sensor and operation modes • 3. Test beam set up and trigger issues • Geometry • Particles and radiators • Trigger • Energy calibration and efficiency of cluster identification • 4. Test beam results for different radiators and comparison with simulations • Mylar • Polypropylene • Polyethylene • Other radiators • 5. Discussion and ID properties estimations • 6. Conclusions Results are final or very close. Can start writing paper Anatoli Romaniouk, TRD mini WS, 25.04.2018