College of Science / Department of Physics

أ. د. محمد خيري محمود ابو شاييب


Professor
أ. د. محمد خيري محمود ابو شاييب

Curriculum Vitae
  • Major: High Energy Physics
  • College: College of Science
  • Department(s): Physics Department
  • E-mail: shayebmk@ahu.edu.jo
  • Phone No.: 0797244712

Title: Professional Headshot of Man

 

Prof. Mohammad Abu Shayeb

 

 

 

 

 

 

 

 

Profile

A Jordanian Physics Professor, working at Al-Hussein Bin Talal University since 2004, I am A capable, successful, and desirable professor to my student, I can make a clear effort to benefit them, including distance education (online). I believe that I belong to a distinguished department and faculty, our students achieved first place in the cognitive university examinations between Jordanian universities for more than years. my research work was published in high-ranking journals. I had a very good experience in an office working as Head, Vice, and dean of science college.

 

Contact

PHONE:

+96-797244712

My homepage

 

EMAIL:

shayebmk@ahu.edu.jo http://email-soft.me/AHUASP/images/dr-icon2.jpghttp://email-soft.me/AHUASP/images/dr-icon4.jpghttp://email-soft.me/AHUASP/images/dr-icon3.jpghttp://email-soft.me/AHUASP/images/dr-icon1.jpg

 

 

 

 

 

 

 

 

 

 

 

                                                     

 

 

 

 

 

 

 

 

MY PORTFOLIO

 

Experience in teaching since 2004, I taught Nuclear physics for graduated and undergraduate students, elementary particle physics, Modern physics, thermodynamics, classical physics, quantum physics, heat and wave, radiation physics, and labs.

 

I am very good at supervising and mentoring graduate and undergraduate students.  

 

Online teaching using teams, Zoom, and Big Blue Button, I am capable to use Moodle.

 

Having a teaching development strategy depend on output marks and understanding.

 

My relation with the student is friendly which I believe helps in building a good and hard work student.

 

I can build an independent research program, which complements and enhances ongoing research activities in the field and leads to publication and external funding, as well as to provide service to the department, the college, the university, and the community.  

 

My experience working for accreditation for more than 5 years in Saudi Arabia and Jordan universities makes me capable to improve in teaching courses and research work.

 

My previous publication was in high energy physics, I shifted to the nuclear and radiation field because of leakage of Arabian groups working with the field.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Contact

PHONE:

+96-797244712

My homepage

 

EMAIL:

shayebmk@ahu.edu.jo http://email-soft.me/AHUASP/images/dr-icon2.jpghttp://email-soft.me/AHUASP/images/dr-icon4.jpghttp://email-soft.me/AHUASP/images/dr-icon3.jpghttp://email-soft.me/AHUASP/images/dr-icon1.jpg

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

    

 

 

 

 

 

 

 

 

 

RESEARCH INTERESTS:

 


·         Radiation physics

·         Experimental high energy physics

·         Heavy-ion Interactions

Qualification (Career and University Education)

Ph.D.

High Energy Physics

University of Rajasthan-INDIA-2003

M.Sc

Nuclear Physics

Dr. B. Marathwada University-India,1996.

B.Sc.

Physics

Marathwada University- India,1993.

EMPLOYMENT

 

2020, Professor Al-Hussein Bin Talal University, Ma’an, Jordan

2011, Associated professor Al-Majmaah University KSA

2011, Associated professor Al-Hussein Bin Talal University, Jordan

2004, Asst Poff, Al-Hussein Bin Talal University, Ma’an, Jordan

2003, Teaching, Granada College, Balqa University, Jordan

 


THE EXPERIENCE’S AT THE OFFICE

 

2020, Assistant Dean for Planning, Development and Quality Control.

2017, Member of External Advisory Committee to support the decisions of the regulatory body in the field of radiological and nuclear At (energy and minerals regulatory commission), Jordan  

2012-2017, Manager of graduate student projects (Al Majmaah University)KSA

2014-2017, Rubric creator and maker for physics department ( al majmaah university) KSA

2014-2017, Self-Study report maker for physics program at  (Al-Majmaah university ) KSA

2012-2016, Member of The National Commission for Academic Accreditation (NCAAA) & Assessment for the Physics Department ( Al Majmaah University)KSA

2012-2016, Accreditation Committee member (ASIN) for the college of science ( Al Majmaah University)KSA

2012-2016, Accreditation Coordinator (ASIN) for the Physics Department

( Al Majmaah University)KSA

2011-2017, Associated professor ( Al Majmaah University)KSA

 

 

2014-2017,  artibrating  academic programs for  accreditation

July 2011 acting Dean of science faculty Al-Hussein Bin Talal University, Jordan

sep-2009, acting Dean of Science faculty Al-Hussein B T U, Jordan

2008, 2009, 2010 Vice Dean of Science faculty Al-Hussein B T U, Jordan

2008, Apr, acting Head of Physics department, Al-Hussein B T U,  Jordan

 

 


THE EXPERIENCE’S AT RESEARCH LAB

 

I was working with an Indian group for the WA98 collaboration, CERN, Geneva (Switzerland). Five Indian groups were responsible for the fabrication and assembly work of Photon Multiplicity Detector (PMD) which is a part of the WA98 experiment.

 

Training course at VARIABLE ENERGY CYCLOTRON CENTER (VECC) Calcutta. Authorized by the Department of Atomic Energy (Government of India). http://www.veccal.ernet.in

 

 


PUBLICATION

 

1.     Mohammad Abu Shayeb, Distribution of natural radioactivity in the Soil & Palm Date-Pits using (High Purity Germanium Radiation Detectors) and (LB-Alpha/Beta) Gas-Flow counter in Saudi Arabia, Nuclear Engineering and Technology 10.1016/j.net.2019.12.009

2.     Xuening Pang, Lotfi Sellaoui, Dison Franco, Matias S. Netto, Jordana Georgian, Guilherme Luiz Dotto, Mohammad K. Abu Shayeb, Hafedh Belmabrouk, Adrian. Bonilla-Petriciolet, Zichao Li, Preparation and characterization of a novel mountain soursop seeds powder adsorbent and its application for the removal of crystal violet and methylene blue from aqueous solutions, Chemical Engineering Journal Vol 123617 (2019)https://doi.org/10.1016/j.cej.2019.123617

3.     M Abu Shayeb “ Distribution of natural radioactivity and radiological hazard using a Nal(TI) gamma-ray spectrometric system. Journal of building physics 1-10 (2016) https://doi.org/10.1177/1744259116631048

4.     Mohammad Abu Shayeb” Transfer factor for natural radioactivity into date Palme pits” Journal of Environmental radioactivity 167 (2017) 75-79https://doi.org/10.1016/j.jenvrad.2016.11.014

5.     Hanan H. Saleh & Mohammad Abu Shayeb Natural radioactivity distribution of southern part of Jordan (Ma′an) Soil, Annals of Nuclear Energy (Impact Factor: 0.8).01/2014;65:184189https://doi.org/10.1016/j.anucene.2013.10.042

6.     Mohammad Abu Shayeb  Photon multiplicity distributions at heavy-ion Au+Au, Pb+Au, Pb+Pb interactions. Journal of modern material Vol 2.2-6 (2016).  

https://doi.org/10.21467/jmm.2.1.2-6

7.     Al-Badawi and M. Kheare Abu Shayeb (2010) “Charged Dirac particle crossing a gravitational electromagnetic sandwich wave” Canadian journal of physics, https://doi.org/10.1139/P10-029

8.     Mohammad Abu Shayeb, Systematic of Photon production in Pb-Pb, Pb-Ni & Pb-Nb interaction. (4th International Conferences of Physics and Astrophysics On (QGP)(ICPAQGP-2001) Held at Jaipur.  25-30,11.2001).

9.     M. Kheare Abu Shayeb and A. Al-Badawi “Systematic studies of photon production in heavy-ion interaction”, Hadronic Journal Vol.29, 2006.

10.  Mohammad Abu Shayeb, Geometrical and dynamical fluctuations in Pb-Pb, Pb-Nb Interactions, world applied sciences journal 3(6):913-915, 2008-11-24.

11.  M. KheareParticle distributions at large transverse momenta from Pb+Pb collisions at  158 GeV/nucleon beam energy”, Hadronic Journal Vol.1, (2009).

12.  Mohammad Kheare Abu Shayeb (2010) “Rapidity density deviations in Pb+Nb and Ni collisions at 158 A GeV/nucleon beam energy” Lat. Am. J. Phys. Educ. Vol. 4, No. 2, May 2010

13.  Mohammad Abu Shayeb (2010)” Transverse momentum spectra of at midrapidity for central Pb+Pb collisions, Hadronic Journal Vol.32, 2010

 


CONFERENCES AND WORKSHOP ATTENDED:

 

1997, India, International Collaboration meeting of WA98/WA93 Experiments Held at Jaipur India.

1997, India, 16th EMU01 Collaboration meeting and workshop on high Energy Experiments held at Jaipur India.

1997, India, 3rd International Conferences of Physics and Astrophysics On (QGP)(ICPA-QGP'97) Jaipur India

2001, India, 4th International Conferences of Physics and Astrophysics On (QGP)(ICPAQGP-2001) Jaipur India

2005, Jordan, 5th symposium on the use of nuclear tech in environment studies

2008, Jordan, Jordan, 7th symposium on the use of nuclear tech in environment studies Symposium on The Technology of Peaceful Nuclear Energy

2017, Jordan    Amman forum for the disarmament of weapons of mass destruction

2017, Jordan    The 4th Arab Forum on the prospects for electricity generation and water desalination using nuclear power

 

SESAME workshop, 2008,2009,2010,2011,2017,2018 Held in Jordan

 

 

 

 

 

Reviewer

I have reviewed so many articles in Q1, Q2, Q3 scientific peer-reviewed journals (Scopus)

 

SKILL, strengths, and languages

Capable

Successful

Hard-working

Motivator & Leader

Very good in Microsoft office

Very good in analysis software

Very good Designing

Ability to work with any platform.   

 

 

LANGUAGES

SPEAK

READ

WRITE

arabic

    X

X

X

english

X

X

X

hindi

X

 

 

 

 

REFERENCES

 

Prof Najeeb Abu karaki

naja@ju.edu.jo 

Phone: ++962791402222

Jordan

 

Prof Taha al Khamis

alkhamis@mutah.edu.jo

Phone: ++962795505013

Jordan

 

Prof Hafedh Belmabrouk

hafedh.belmabrouk@fsm.rnu.tn

Tunisia  

 

 

 

 

 

 

 

 

 

 

                                                         


Early Universe Physics

Radiation physics

Experimental high energy physics

Heavy ion Interactions

Distribution of natural radioactivity and radiological hazard using a NaI (Tl) gamma-ray spectrometric system
  • Research Summary
    • The concentrations of 226Ra, 232Th, and 40K are measured in the material collected from two locations. The collected materials are analyzed using gamma-ray spectrometry. The activity concentration of the naturally occurring radionuclides 226Ra, 232Th, and 40K in building material varies from 12.6 to 121.4, 13.6 to 142, and 69.5 to 620.6 Bq kg− 1, respectively. The radium equivalent activity, absorbed dose rate, annual effective dose, and hazard index are also calculated.
  • Research link
  • key words
Charged Dirac particle crossing a gravitational electromagnetic sandwich wave
  • Research Summary
    • The problem of a charged Dirac particle crossing a gravitational electromagnetic wave of finite duration in general relativity is considered in this paper. The set of equations representing the Dirac equation in the Newman–Penrose formalism is solved exactly. It is shown that the Dirac particle crossing such a wave emerges with amplified energy.
  • Research link
  • key words
Rapidity density deviations in Pb+ Nb and Ni collisions at 158 A GeV/nucleon beam energy
  • Research Summary
    • Phenomenological models used, for comparison with the experimental observations, for a long time. This comparison slowly modified the structure of these models. They have contributed significantly in planning the future experiments, in addition to pointing out deviations, which needs other experiments. In this work, a Rapidity distribution in heavy ion interactions is studied, and comparison between simulated results with actual experimental data using several targets to look for deviations from the general trend.
  • Research link
  • key words
Geometrical and Dynamical Fluctuations in Pb-Pb, Pb-Nb Interactions
  • Research Summary
    • The fluctuations in pseudorapidity density are well described by Fritiof and IRIS, model for a bulk of the data at a few high multiplicity events remain unexplained. In these events, the estimated energy density is within the range of values predicated for the onset of the deconfinement phase transition. It is important to know whether fluctuations are, in fact, of statistical nature or geometrical ones or due to some physical process. A fluctuation is not just due to statistical origin if it exceeds five or six standard deviations. Different methods devised to understand the nature of these fluctuations are discussed.
  • Research link
  • key words
Transfer factors for natural radioactivity into date palm pits
  • Research Summary
    • Palm pits are used in various human and animal feed products. In this study, the natural radioactivity levels from soil and date palm pits of 9 samples collected from major date palm farms in three different regions (Buraidah, Al-Zulfi and Al-Majmaah) of Saudi Arabia were determined by using the high purity germanium (HPGe) gamma-ray spectrometer. The mean activity concentrations of 226 Ra, 232 Th, 137 Cs and 40 K in soil samples were 12.8±2.2, 10.2±2.1, 0.28±0.10 and 329±87 Bg kg− 1, respectively. Similarly the mean activity concentrations of 226 Ra, 232 Th, and 40 K in date palm pits were 5.6±1.2, 2.8±0.4 and 181±17 Bq kg− 1, respectively, whereas 137 Cs could not be detected. The geometric mean of TF values (geometric standard deviation in parentheses) of 226 Ra, 232 Th, and 40 K were 0.33 (2.1), 0.22 (1.8) and 0.51 (2.0), respectively.
  • Research link
  • key words
Systematic studies of Photon production in Heavy-Ion Interactions
Photon Multiplicity Distributions at Heavy Ion Au+ Au, Pb+ Au, Pb+ Pb Interactions
  • Research Summary
    • The experimental distributions for Heavy ion interaction, Au+ Au, Pb+ Au, Pb+ Pb have been fitted to polynomial fit of 4 th order to look at minor differences in multiplicity distributions for different targets at heavy ion collisions experiment. The multiplicity distributions found similar; except for small differences which may be of statistical in nature. This analysis supports the hypothesis that geometrical aspects play a dominant role in particle production in heavy ion interactions.
  • Research link
  • key words
TRANSVERSE MOMENTUM SPECTRA OF π+ π-, p p-AT MIDRAPIDITY FOR CENTRAL Pb+ Pb COLLISIONS
Transverse momentum spectra of at midrapidity for central Pb+ Pb collisions
  • Research Summary
    • Introduction The study of the collisions properties of strongly interacting matter at high temperature and energy density showed that hard partons lose energy when transverse in the hot and dense medium created in the collision. They lose energy by gluon radiation or colliding with surrounding patrons [1-3]. The method of energy losses lead to a softening of the hadrons spectra at high PT. The energy losses can be calculated using Quantum Chromo dynamics (QCD). Soft QCD processes dominate particle production at PT and the PT distributions, which described by hydrodynamic models, distinct pattern of mesons and baryon suppression, have been observed, which are consistent with hadronization through coalescence of quarks. Adding to that an enhancement of baryon/meson ratio above unity at high PT was observed [4, 5]. Nuclear–nuclear reactions at top SPS energy up to 17.3 GeV/nucleon studied to investigate the energy dependence
  • Research link
  • key words
Distribution of natural radioactivity and radiological hazard using a NaI (Tl) gamma-ray spectrometric system
  • Research Summary
    • The concentrations of 226Ra, 232Th, and 40K are measured in the material collected from two locations. The collected materials are analyzed using gamma-ray spectrometry. The activity concentration of the naturally occurring radionuclides 226Ra, 232Th, and 40K in building material varies from 12.6 to 121.4, 13.6 to 142, and 69.5 to 620.6 Bq kg− 1, respectively. The radium equivalent activity, absorbed dose rate, annual effective dose, and hazard index are also calculated.
  • Research link
  • key words
Charged Dirac particle crossing a gravitational electromagnetic sandwich wave
  • Research Summary
    • The problem of a charged Dirac particle crossing a gravitational electromagnetic wave of finite duration in general relativity is considered in this paper. The set of equations representing the Dirac equation in the Newman–Penrose formalism is solved exactly. It is shown that the Dirac particle crossing such a wave emerges with amplified energy.
  • Research link
  • key words
Rapidity density deviations in Pb+ Nb and Ni collisions at 158 A GeV/nucleon beam energy
  • Research Summary
    • Phenomenological models used, for comparison with the experimental observations, for a long time. This comparison slowly modified the structure of these models. They have contributed significantly in planning the future experiments, in addition to pointing out deviations, which needs other experiments. In this work, a Rapidity distribution in heavy ion interactions is studied, and comparison between simulated results with actual experimental data using several targets to look for deviations from the general trend.
  • Research link
  • key words
Geometrical and Dynamical Fluctuations in Pb-Pb, Pb-Nb Interactions
  • Research Summary
    • The fluctuations in pseudorapidity density are well described by Fritiof and IRIS, model for a bulk of the data at a few high multiplicity events remain unexplained. In these events, the estimated energy density is within the range of values predicated for the onset of the deconfinement phase transition. It is important to know whether fluctuations are, in fact, of statistical nature or geometrical ones or due to some physical process. A fluctuation is not just due to statistical origin if it exceeds five or six standard deviations. Different methods devised to understand the nature of these fluctuations are discussed.
  • Research link
  • key words
Transfer factors for natural radioactivity into date palm pits
  • Research Summary
    • Palm pits are used in various human and animal feed products. In this study, the natural radioactivity levels from soil and date palm pits of 9 samples collected from major date palm farms in three different regions (Buraidah, Al-Zulfi and Al-Majmaah) of Saudi Arabia were determined by using the high purity germanium (HPGe) gamma-ray spectrometer. The mean activity concentrations of 226 Ra, 232 Th, 137 Cs and 40 K in soil samples were 12.8±2.2, 10.2±2.1, 0.28±0.10 and 329±87 Bg kg− 1, respectively. Similarly the mean activity concentrations of 226 Ra, 232 Th, and 40 K in date palm pits were 5.6±1.2, 2.8±0.4 and 181±17 Bq kg− 1, respectively, whereas 137 Cs could not be detected. The geometric mean of TF values (geometric standard deviation in parentheses) of 226 Ra, 232 Th, and 40 K were 0.33 (2.1), 0.22 (1.8) and 0.51 (2.0), respectively.
  • Research link
  • key words
Systematic studies of Photon production in Heavy-Ion Interactions
Photon Multiplicity Distributions at Heavy Ion Au+ Au, Pb+ Au, Pb+ Pb Interactions
  • Research Summary
    • The experimental distributions for Heavy ion interaction, Au+ Au, Pb+ Au, Pb+ Pb have been fitted to polynomial fit of 4 th order to look at minor differences in multiplicity distributions for different targets at heavy ion collisions experiment. The multiplicity distributions found similar; except for small differences which may be of statistical in nature. This analysis supports the hypothesis that geometrical aspects play a dominant role in particle production in heavy ion interactions.
  • Research link
  • key words
TRANSVERSE MOMENTUM SPECTRA OF π+ π-, p p-AT MIDRAPIDITY FOR CENTRAL Pb+ Pb COLLISIONS
Transverse momentum spectra of at midrapidity for central Pb+ Pb collisions
  • Research Summary
    • Introduction The study of the collisions properties of strongly interacting matter at high temperature and energy density showed that hard partons lose energy when transverse in the hot and dense medium created in the collision. They lose energy by gluon radiation or colliding with surrounding patrons [1-3]. The method of energy losses lead to a softening of the hadrons spectra at high PT. The energy losses can be calculated using Quantum Chromo dynamics (QCD). Soft QCD processes dominate particle production at PT and the PT distributions, which described by hydrodynamic models, distinct pattern of mesons and baryon suppression, have been observed, which are consistent with hadronization through coalescence of quarks. Adding to that an enhancement of baryon/meson ratio above unity at high PT was observed [4, 5]. Nuclear–nuclear reactions at top SPS energy up to 17.3 GeV/nucleon studied to investigate the energy dependence
  • Research link
  • key words
1. Mohammad Abu Shayeb, Distribution of natural radioactivity in the Soil & Palm Date-Pits using (High Purity Germanium Radiation Detectors) and (LB-Alpha/Beta) Gas-Flow counter in Saudi Arabia, Nuclear Engineering and Technology 10.1016/j.net.2019.12.009
  • Research Summary
    • In the first study, the Radon emanation and radiological hazards associated with radionuclides in soil samples, collected from 9 various date palm farms located in 3 different districts in Saudi Arabia were determined through a high purity Germanium (HPGe) gamma-ray spectrometer. The estimated average values of Radon emanation coefficient and Radon mass exhalation rate for soil samples were 0.535 ± 0.016 and 50.063 ± 7.901 mBqkg−1h−1, respectively. The annual effective dose of radionuclides in all sampling locations was found to be lower than UNSCEAR's recommended level of 0.07 mSvy−1 for soil in an outdoor environment. In the secondary study, gross α and gross β activities in soil and date palm pits samples were measured by a low background α/β counting system. Average values of gross α and gross β activities in soil and date palm pits samples were 5.761 ± 0.360 Bqkg−1, 38.219 ± 8.619 Bqkg−1 and 0.556 ± 0.142 Bqkg−1, 24.266 ± 1.711 Bqkg−1, respectively.
  • Research link
  • key words
    RadioactivityRadiological hazardRadon emanation
2. Xuening Pang, Lotfi Sellaoui, Dison Franco, Matias S. Netto, Jordana Georgian, Guilherme Luiz Dotto, Mohammad K. Abu Shayeb, Hafedh Belmabrouk, Adrian. Bonilla-Petriciolet, Zichao Li, Preparation and characterization of a novel mountain soursop seeds powder adsorbent and its application for the removal of crystal violet and methylene blue from aqueous solutions, Chemical Engineering Journal Vol 123617 (2019)
  • Research Summary
    • Herein, a novel mountain soursop seeds powder (MSSP) adsorbent was employed to explore the adsorption mechanism of two relevant environmental pollutants: crystal violet CV and methylene blue MB. As a first assessment to investigate the adsorption mechanism and to analyze the performance of this adsorbent, the dye adsorption isotherms were measured at 298–328 K and pH 8. Experimental results demonstrated that this adsorbent was more effective to remove the CV dye compared to MB dye from aqueous solution, thus concluding that it could utilized for the treatment of dye polluted industrial effluents. To further interpret the adsorption mechanism and to obtain a new physicochemical vision, a successful phenomenological theoretical analysis via double layer adsorption model was detailed in this paper. At high equilibrium concentration, the adsorbed quantities at saturation were calculated and they followed this sequence: Qsat (CV-MSSP) > Qsat (MB-MSSP). This theoretical finding explained the highest adsorption for CV dye at different temperatures and characterized analytically its affinity for tested adsorbates. The geometry inclination of tested dyes on MSSP adsorbent surface was described in the paper by analyzing the bonded number of CV and MB dye molecules per site. It was demonstrated that these dyes were adsorbed via a mixed orientation. Based on the estimated concentrations at half-saturation, the calculated adsorption energies suggested that the adsorption of CV and MB on MSSP adsorbent was endothermic. A general analytical description of the dye adsorption mechanism showed that the density of receptor sites and adsorption energies followed the same trend as the adsorption capacity, then they can be considered as the factors that governed this separation process.
  • Research link
  • key words
    Mountain soursop seeds powderDye crystal violetDye methylene blueAdsorptionModeling

Mar,13-15.97

Jaipur, India

International Collaboration meeting of WA98/WA93 Experiments Held at Jaipur India.

May,5-10.97

Jaipur, India

16th EMU01 Collaboration meeting and workshop on high Energy Experiments held at Jaipur India.

Nov,17-21.97

Jaipur, India

3rd International Conferences of Physics and Astrophysics On (QGP)(ICPA-QGP'97) Jaipur India

Nov,25-30.01

Jaipur, India

4th International Conferences of Physics and Astrophysics On (QGP)(ICPAQGP-2001) Jaipur India

Sep,12-14.05

Jordan, Irbid

5th symposium on use of nuclear tech in environment stadies

 

Nov, -.08

 

Oct, 14-08

Jordan Irbid

 

Jordan

7th symposium on use of nuclear tech in environment stadies

 

Symposium on The Technology of Peaceful

Nuclear Energy

2017

jordan

Amman forum for disarmament of weapons of mass destruction

2017

jordan

The 4th Arab Forum on the prospects for electricity generation and water desalination using nuclear power


            Training course at VARIABLE ENERGY CYCLOTRON CENTE (VECC Calcutta. Authorized by the Department of Atomic Energy (Government of India).


1) Participate in all committees section
2) Reviewer for some scientific journals  


Al Majmaah university  first Prize for innovation and entrepreneurship ( Graduation projects )


2020                Full prof Al-Hussien Bin Talal University, Maan, Jordan

2017-still

Associated professor Al-Hussein Bin Talal University, Ma’an, Jordan

2011-2017 

Associated professor Al-Majmaah University KSA

2011

Associated professor Al-Hussein Bin Talal University, Ma’an, Jordan

2004    

Asst Poff, Al-Hussein Bin Talal University, Ma’an, Jordan

2003-2004

Teaching, Granada College affiliated to,Balqa University, Jordan

2017

Member of External Advisory Committee to support the decisions of the regulatory body in the field of radiological and nuclear

At (energy and minerals regulatory commission)

2013-2017

Manager of graduation student projects (Al Majmaah University)KSA

2015-2016-2017

Self-Study report maker for physics program at  (Al-Majmaah university ) KSA

2013-2016

Member of (The National Commission for Academic Accreditation & Assessment for the Physics Department ( Al Majmaah University)KSA

2013-2016

Accreditation Committee member (ASIN) for college of science

( Al Majmaah University)KSA

2013-2016

Accreditation Coordinator (ASIN) for the Physics Department

( Al Majmaah University)KSA

2011-2017

Associated professor ( Al Majmaah University)KSA

2011 july- sep

Acting Dean of science faculty (al-Hussein Bin talal University)

2011

Vice Dean of Science faculty Al-Hussein B T U, Ma’an, Jordan

2010 july- sep

Acting Dean of science faculty (al-Hussein Bin talal University)

2010

Vice Dean of Science faculty Al-Hussein B T U, Ma’an, Jordan

2009 july-sep

Acting Dean of Science faculty Al-Hussein B T U, Ma’an

2008

Vice Dean of Science faculty Al-Hussein B T U, Ma’an, Jordan

2008, Apr-sep 

Acting Head of Physics department (acting) , Al-Hussein B T U,  Jordan

Nuclear Physics
Elementary Particle 
Modern Physics
Thermodynamics
Statistical Physics

Physics 101 + lab
Physics 102 + Lab
Thermodynamics +Lab
Low temperature Physics (al Majmaah university)
Modern Physics 1+2+Lab
Statistical physics
Waves And Heat
Classical Physics 1+2
Quantum Physics 1+2
Nuclear Physics
Elementary Particle

Transfer Factors for natural radioactivity into date palm pits ( Al Majmaah University, KSA)
المزيد من التفاصيل
    Radiation sources of pollution in agricultural soil and uptake by trees are due to the natural emission of radiation from the rocks and some human activities. Most of the radioactivity in the soil caused by the elements 226Ra, 232Th and 40K. In this research we intend to find the natural radioactivity uptake by the PALM DATE -PITS of central part of Saudi Arabia at (Al-Zulfi, Al-Majmaah and Qassim) using HPGe gamma-ray spectrometer and Multi Detector Low Background Alpha/Beta Gas-flow Proportional Counting System (LB4200 CANBERRA). Results and analysis covered by this study can show the threat of radiation to certain areas and some relating recommendations.
Transfer Factors for natural radioactivity into date palm pits ( Al Majmaah University, KSA)
المزيد من التفاصيل
    Radiation sources of pollution in agricultural soil and uptake by trees are due to the natural emission of radiation from the rocks and some human activities. Most of the radioactivity in the soil caused by the elements 226Ra, 232Th and 40K. In this research we intend to find the natural radioactivity uptake by the PALM DATE -PITS of central part of Saudi Arabia at (Al-Zulfi, Al-Majmaah and Qassim) using HPGe gamma-ray spectrometer and Multi Detector Low Background Alpha/Beta Gas-flow Proportional Counting System (LB4200 CANBERRA). Results and analysis covered by this study can show the threat of radiation to certain areas and some relating recommendations.

I was working for the WA98 collaboration,  CERN, Geneva (Switzerland) . Five Indian groups were responsible for the fabrication and  assembly work of  Photon Multiplicity Detector (PMD) which is a part of WA98 experiment.I have participated in the fabrication and assembly work of the Photon Multiplicity Detector (PMD).  Fabrication of detector was carried out at all five centres and assembly of detector took place at Variable Energy Cyclotron Centre (VECC), Calcutta then it was launched to CERN, Geneva to take part in WA98 experiment.


Academic qualifications and certificates

Ph.D in High Energy Physics
M.Sc in Nuclear Physics
B.Sc Physics 

office hours

10-11
All days except thursday 

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