I. Mostafanezhad
14 Papers
I. Mostafanezhad is an academic researcher. The author has contributed to research in topics: Computer science & Detector. The author has an hindex of 1, co-authored 3 publications.
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Papers
Simulation Studies of a Novel Muography Detector for the GreatPyramids
S. Aly,Yasser Assran,Alain Bonneville,B. Elmahdy,R.T. Kouzes,Azaree T. Lintereur,Ayman Mahrous,I. Mostafanezhad,R. Pang,B. Rotter,Farjana Snigdha,Michael Tytgat,M. University,D. Physics,Astronomy,Ghent,Belgium,Institute of Basic,A. Science,Egypt-Japan University of Science,Technology,Alexandria,Egypt,D. Physics,Faculty of Computer Science,H. University,Cairo,Centre for Theoretical Physics,The British University in Egypt,Canadian International college,Sheikh Zayed Campus,Giza,S. University,Elmira City,Suez-Cairo Road,Suez,Nalu Scientific,Honolulu,Hawaii,USA.,Oregon State University,Corvallis,Oregon.,P. S. University,S. College,Pennsylvania.,P. N. N. Laboratory,Richland,Washington +48 more
- 15 Feb 2022
TL;DR: In this paper , a new simulation framework of the Pyramid of Khafre and the detector setup is presented, which will serve as a basis to develop the data and image reconstruction algorithms to be used during the future muography campaign in the pyramid.
First test results of the trans-impedance amplifier stage of the ultra-fast HPSoC ASIC
C. Chock,K. T. Flood,Luca Macchiarulo,F. Martinez-Mckinney,Antonio Martínez-Rojas,Simone Michele Mazza,I. Mostafanezhad,M. O. Nizam,Jennifer Ott,Richard Perron,E. Ryan,H. F.W. Sadrozinski,B. A. Schumm,A. Seiden,Kang-Je Shin,M. Tarka,D. Uehara,M. Wilder,Y. Zhao +18 more
TL;DR: In this article , the first results from the HPSoC ASIC designed for readout of Ultra-fast Silicon Detectors are presented, with the analog front end with β-particles impinging on 3 × 3 AC-LGAD arrays (500μm pitch, 200 × 200 μm2 metal).
1
Design of First Prototype of SymPET, a Waveform Digitizing “System on Chip” for Ultra-High Resolution TOF PET
I. Mostafanezhad,L. Macchiarulo,C. Chock,H. Sabet,G. Uehara +4 more
- 01 Nov 2025
TL;DR: Researchers design SymPETv1, a "System on Chip" for ultra-high resolution Time Of Flight PET, utilizing Waveform Digitization to capture and convert sensor waveforms, achieving optimal timing and energy resolution for TOF-PET readout systems.
Design of the UDCv2-a 32 Channel Waveform Digitizer with Applications in Monitoring High Energy Density Plasma
I. Mostafanezhad,L. Macchiarulo,G. Uehara,C. Chock,K. Hoe,D. Uehara +5 more
- 01 Nov 2025
TL;DR: Researchers design the UDCv2-a, a 32-channel waveform digitizer chip with 10 Gsps sampling and <10ps resolution, suitable for high-energy density plasma diagnostics and other applications requiring high timing performance and large buffer length.
Limited-angle TOF-PET for intraoperative surgical applications: a simulation study
Salar Sajedi,Yue-Meng Feng,L. Macchiarulo,I. Mostafanezhad,Hamid Sabet +4 more
TL;DR: This simulation study evaluates the impact of detector parameters on intraoperative PET imaging resolution, demonstrating that high timing resolution and specific detector configurations enable detection of small objects with low uptake ratios and thick backgrounds.