Prof Dr. Asaad Ismail, Medical Physics, Best Research Article Award.
Salahaddin University-erbil, Iraq
Professional Profiles:
๐จโ๐ Bio Summary:
Prof. Dr. Asaad Hamid Ismail is a renowned figure in medical physics, currently a Professor at Salahaddin University-Erbil. With a Ph.D. in Radiation and Medical Physics from Universiti Sains Malaysia, his research focuses on radiation pollution’s effects, particularly alpha particles on lung cancer, male infertility, and human blood using innovative irradiation techniques.
๐ Education:
Dr. Asaad Ismail holds a Ph.D. in Radiation and Medical Physics from Universiti Sains Malaysia, Penang, Malaysia (2008-2011). Prior to that, he earned his M.Sc. in Radiation Physics and B.Sc. in Physics from the University of Salahaddin-Hawler, Erbil, Iraqi Kurdistan, Iraq.
๐ Research Focus:
Dr. Ismail’s research focuses on the effects of radiation on human health, particularly in the areas of lung cancer, male infertility, and blood components. He employs innovative irradiation and exposure techniques to evaluate the risks associated with alpha particle deposition and radon inhalation.
๐ Honors & Awards:
Throughout his career, Dr. Ismail has received recognition for his contributions to the field of medical physics. His honors and awards underscore his dedication to advancing scientific knowledge and improving healthcare outcomes.
Professional Experience: ๐ผ
Currently serving as a Professor at Salahaddin University-Erbil since 1997, Dr. Ismail has accumulated extensive experience in the field of medical physics. His expertise spans various aspects of radiation and medical physics, including research, teaching, and academic leadership.
๐ Top Noted Publications :
Title: Indoor radon concentration and its health risks in selected locations in Iraqi Kurdistan using CR-39 NTDs
Authors: AH Ismail, MS Jaafar
Year: 2010
Publication: Presented at the 4th International Conference on Bioinformatics and Biomedical
Citations: 44
Description: This study investigates indoor radon concentrations in specific areas of Iraqi Kurdistan using CR-39 NTDs, providing insights into the associated health risks.
Title: Interaction of low-intensity nuclear radiation dose with human blood: Using the new technique of CR-39NTDs for an in vitro study
Authors: AH Ismail, MS Jaafar
Year: 2011
Publication: Applied Radiation and Isotopes 69 (3), 559-566
Citations: 42
Description: Dr. Ismail and Dr. Jaafar explore the interaction between low-intensity nuclear radiation doses and human blood using CR-39NTDs, offering valuable insights through an in vitro study.
Title: Design and construct optimum dosimeter to detect airborne radon and thoron gas: Experimental study
Authors: AH Ismail, MS Jaafar
Year: 2011
Publication: Nuclear Instruments and Methods in Physics Research Section B: Beam โฆ
Citations: 34
Description: This experimental study by Dr. Ismail and Dr. Jaafar focuses on designing and constructing an optimal dosimeter for detecting airborne radon and thoron gas, contributing to improved measurement techniques.
Title: Measurement of radium content and radon exhalation rates in building material samples using passive and active detecting techniques
Authors: AH Zakaria, SJ Mohamed, AH Ismail
Year: 2013
Publication: International Journal of Scientific & Engineering Research, 4 (9), 1827-1831
Citations: 29
Description: This collaborative study explores the measurement of radium content and radon exhalation rates in building materials, employing passive and active detecting techniques to enhance detection accuracy.
Title: Experimental measurements on CR-39 response for radon gas and estimating the optimum dimensions of dosimeters for detection of radon
Authors: AH Ismail, MS Jaafar
Year: 2009
Publication: Proceedings of the 3rd Asian Physics Symposium, Bandung, Indonesia, 22-23
Citations: 26
Description: Dr. Ismail and Dr. Jaafar conduct experimental measurements on CR-39 response to radon gas, aiming to estimate the optimal dimensions of dosimeters for effective radon detection.
As an accomplished researcher, Dr. Ismail’s work is reflected in his author metrics, which include citations, h-index, and other measures of scholarly impact. These metrics highlight the influence of his research within the academic community.
๐ Research Timeline:
Over the years, Dr. Ismail’s research trajectory has evolved, encompassing diverse topics in medical physics. From his early investigations into alpha particle deposition to his current focus on radon inhalation and its effects on human health, his research timeline reflects a commitment to advancing scientific knowledge and addressing critical healthcare challenges.