4570

4298

كارشناسي ارشد

فيزيك

اصفهان: دانشگاه صنعتي اصفهان، دانشكده فيزيك

1387

نه، 66، [II] ص: نمودار ، جدول

ص.ع. به: فارسي وانگليسي

اكبر پروازيان

ظفراله كلانتري

88/4/31

محمد حسن علامت ساز، فرهاد شهبازي

فيزيك

ID4298

به فارسي و انگليسي: قابل رويت در نسخه ديجيتال

Investigation of Fusion Gain In Fast Ignition With Magnetic Field By Relativistic Electrons and Protons Amir Javani Amir nucicf@ymail com 14 3 2009 Department of Physics Isfahan University of Technology Isfahan 84156 83111 Iran Degree M sc Language Farsi Dr Akbar Parvazian Parvazin@ph iut ac irAbstractFast ignition is the new method in inertial confinement fusion ICF in which the compression and ignition stepsare separated In the first stage fuel is compressed by laser or ion beams In the second phase relativistic electronsare constructed by pettawatt laser in the fuel Also in the second phase 5 35 MeV protons can be generated in thefuel Electrons or protons can penetrate in ultra density fuel and deposite their energy in the fuel More recently cylindrical rather than spherical fuel chambers with magnetic control in the plasma domain have been alsoconsidered It is called magnetized target fusion MTF Magnetic field effects on relativistics electrons energydeposition rate in fuel In this work fast ignition method in cylindrical fuel chambers will be investigated andtransportation of the relativistic electrons and protons will be calculated by using MCNPX and FLUKA codes with0 25 and 0 5 tesla magnetic field in single and dual hot spot Furthermore the transfer rate of relativistic electronsand high energy protons to the fuel and fusion gain will be calculated Our calculations show that presence ofexternal magnetic field guarantee higher fusion gain Relativistic electrons are much more appropriate object forignition MTF in dual hot spot can be considered as appropriate substitusion for the current ICF techniques Key wordsFusion Pellet Inertial method Fast ignition Fusion gain

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ظفراله كلانتري

محمد حسن علامت ساز، فرهاد شهبازي