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دراسة خصائص الحزمة الالكترونية على صور التاثير المراتي == Investigation of the Electron Beam characteristics on the Mirror Effect Images

Author name: مصطفى محيسن عبد
Supervisor name: حسن نوري عبد الوهاب العبيدي
General topic: Physics
Specific topic: Electronics Physics
Degree: Master
University: Mustansiriyah University - Faculty Of Education
Language: English
University location: Baghdad
First pages:
Abstract: اجريت دراسة نظرية بمساعدة الحاسوب لوصف سلوك الكترون معجل نحو عينة عازلة مشحونة لانتاج صور المراة الالكترونية. حيث تم تقديم معالجة رياضية بسيطة لسلوك الالكترون الماسح بدلالة جهد الحزمة وجهد النموذج. ان معادلة الحركة للالكترون الساقط راسيا اشتقت بدلالة قانون حفظ الطاقة. تكمن اهمية الاشتقاق الرياضي في كونه يربط معلمات حزمة المسح من جانب بمعلمات التشعيع من اخر. تم الوصول الى هذا المنجز من خلال تبني انموذجي الشحنة النقطية والقرص المشحون. اظهرت النتائج بان فهم وتفسير جيد لسلوك الالكترون الماسح الفيزيائي يمكن استخلاصه. بناء على ذلك فان تاثير قطر وتيار الحزمة جهد المسح مسافة التشغيل، الشحنة المتراكمة وابعاد المنطقة المشععة على صور مراة الالكترون بالامكان تحديدها. النتائج اظهرت بوضوح ان تيار الحزمة الالكترونية له تاثير كبير على الصور المر اتية المنتجة بالمقارنة مع معلمات الحزمة الاخرى. وتبين ان تيار الحزمة يمكن ان يستخدم بالتحكم بصور المراة فقط عند القيم الدنيا من جهد المسح. علاوة على ذلك اظهرت المعالجة المستخدمة في هذا العمل القدرة على انتاج وسيلة لحساب الشحنة المتراكمة. وبينت نتائج هذه الطريقة اتفاق ممتاز مع بعض النتائج التي تم نشرها. | A computer - aided theoretical investigation is conducted to describe the behavior of an accelerated probing electron oriented toward a charged insulator sample and hence producing electron mirror images. A simple mathematical manipulation for the scanning electron behavior in terms of the beam and surface potentials is presented. The equation of motion of this head - incident electron is derived in terms of the energy conservation law. The importance of the derived expression is that it has relating scanning beam parameters, on the one hand, and the parameters of the irradiation on the other hand. This obligation has achieved through adopting of the disc and point charged models. Results have shown that best comprehend and interpret for the physical behaviors of a scanning electron can be extracted. Hence the influence of a beam (size and current), scanning potential, working distance, trapped charge and dimension of the irradiated area on the electron mirror images are defined. The results have clearly shown that the electron beam current has a considerable effect on the deduced mirror images in comparison with the other beam parameters. It is found that the beam current may be used to control mirror images only in the lower values of scanning potential. Furthermore, the introduced manipulation shows an ability to produce a method for calculating the trapped charge. However, the result of this method shows an excellent agreement with some of the published experimental one

استكشاف الجهد لانتاج صور التاثير المراتي الالكتروني من عينات بيولوجية == Exploring the Potential for Producing Electron Mirror Effect Images from Biological Samples

Author name: محمد شاكر موسى
Supervisor name: حسن نوري عبد الوهاب العبيدي | دنيلا كانديا
General topic: Physics
Specific topic: Electronics Physics
Degree: Master
University: Mustansiriyah University - Faculty Of Education
Language: English
University location: Baghdad
First pages:
Abstract: An experimental study which is based on theoretical aspects is adopted to investigate the most important parameters that control the electron mirror effect phenomenon in biological samples. The machine that has been used to achieve the experiments is LEO 1430 scanning electron microscope. All the experiments are executed in room temperature and fixed 5*10 - 5 mbar of pressure and 29 mm of working distance with an average 35%of humidity. A mathematical description of the charging process and trapped charge is presented. Although this modulation is based on simple ideas of the electricity, it has a good agreement with experimental results. Different types of biological samples have been used to investigate mirror effect phenomenon occurs in these samples. Where in some samples mirror effect appears significantly while there is no sign of charge trapping in other samples. The main sample that has been adopted for exploring the phenomenon is Rotula, which belongs to the buccal apparatus of sea urchin, due to its relatively large area and thickness in comparison to other available specimens and the stability of the mirror effect. Different locations are chosen in each side of Rotula to compare among them. As the most effective parameter in this phenomenon is charge trapping and detrapping, the charge accumulation on the sample surface is measured by two different methods namely magnification factor method (MFM) and disappearing method (DM). The MFM is used to investigate five different locations of the inhomogeneous oral side, while the homogeneous aboral side is used to compare between the values of the trapped charge using MFM and DM. The dielectric constant of the aboral side of Rotula has been calculated by making use of the theoretical aspects of MFM and DM.