Stopping Power of Electrons and Protons inPolyethylene TerephthalateC10H8O4, and PolyurethaneC17H16N2O4

: .In this work ,the entireprotons stopping power has been calculated by using Ziegler formula. The protons’energy range were (10-2 keV to 103 keV). The entireelectrons stopping power with using Bethe-Blochformula was designed, the verve range of electrons as of 10 keV to 105 keV in PolyurethaneC17H16N2O4, and Polyethylene terephthalate C10H8O4which as a polymeric materials for manufacture the astronaut suit.The results in this research were compared with the values of the E-STAR program for light charged particles (electrons) and the values of the SRIM program for the heavy charged particles (protons), and they showed good compatibility and all the mentioned equations were programmed in MATLAB2013 language.


Introduction
The cessation of energetic ions in the matter has been a topic for several years.It is of great importance to theoretical and experimental physicists.[1][2][3], Bethe [4] and Bloch [5 ,6] were the leading hypotheticaldetectives.The charged units are stopping in the matter.Bohr, in his first articles [1][2][3] ,it is proposed a methodintended to stopcontroldepending on the evidence that target atoms are traditional oscillators advanced [4], Bethe performed steadyimportantmechanics analysis and animportant eq. to define the discontinuing of fast charged particles which move in a quantified way."Bloch"builtconnecting methodin the middle of the two.Traditional"Bohr"effect factormethod and quantum methodology.Herealized an updated "Bethe"formulation called "Bethe-Bloch equation" [5,6].This calculationdecreases the "Bohr"formulationinsmall velocity and the" Bethe"formulation, at great speed.In addition, the Bethe's strengthened Moller [7] and Bethe [8].
Discontinuingmodel by incorporating relativistic alterations.But, the ideas of "Bohr, and Bethe" can just be true for fast elements.Either way,these two theoriesare utilized now days with the fast speeds.from another hand, for slow elements, the principle of stopping power reducedissue was further established by "Fermi and Teller" [9].Theypreservedboardaverageby way of anallowed electron gas andelectricdiscontinuing power plan that has arelation withspeed of the shell [10].A medium's discontinuing power may be clear as the normal energy loss partknowledgeable by the elements of charge each unit pathwaydistance in the middle inrespect [11,12].Two basics consist of stopping power: impacts and energy.The main is the most significant result of the communicationamong the eventunits and the nuclear electrons formimpactpreventing power is commonly utilized for decreasing the averagemass dependency (ρ) [12].Absolute discontinuing power might be derived from (SRIM-2003) [13], which uses the quantum mechanical treatment of ionatom collision to measure stopping power and ion spectrum (10eV-2GeV/amu) in matter (the SRIM manual denotes to the atom movement as a 'ion' and all objective atoms as a 'atom')Ziegler and Biersack [11] offered a complete summary of the measurement.A medium's stopping power may be definiteby means of the typical energy loss unit experienced by the particles of charge in unit pathway length in the intermediateunder deliberation.[12,14] Many physicists have unrushed the energy loss in matter, but the elementary, standard derivation was credited to "Bloch", the one whoenhanced Bethe 's estimate, thus the "Bethe-Bloch"method.The energy loss ratecan be written by(-dE/dx); dE/dx actuality a loss of vigor, is a adverseworth [15].

Bethe-BlochFormula
Bethe [4] has derived an alternative stopping power formula.In contrast to Bohr, from the point of view of quantum mechanism, "Bethe"derivative a discontinuing powermethod insituation of a high-speedmissile.Classical countenancethe stopping plan for a gas target of the free electron could be as follow [16]: as (n) is the density numberof electrons, m e is themass ofelectron .Also, for heavyweightmissile Mp >> me the stopping power in Eq.( 1) decreases to : Two suppositions have been used in this derivation: the stopping caused from excitation and ionization of targ et electrons from Coulom.Moreover, Interface is known as part of the first Born approximation.The stopping nu mber  ℎ reads, Where ћω j is the energy that corresponds to the j th excitation of electrons in the target atoms andf j is the generalized force of the oscillator (GOS).In reality, it is very difficult to measure the j th electronic excitement, instead of that, measuring the average energy of the excitement is possible to do and the excitation energy defines itself : It can be come close to spending widely use scrambling relationship [6]  ≈ 10 2 (5)

So
as to justice the consistency the two both theories and the theory of Bethe to predicte electronics opping power, the effects of electronic stopping power have been presnted.Stopping power of the proton going over the Si target [17].

Ziegler Formula
To close the difference between the high-and low energy theories, interpolation formulas of various degrees of sophistication were suggested by Varelas and Biersa [18].
In addition, as the Varelas_Biersack formula is even simpler and has the correct asymptotic action at both high and low energy levels, Eq.In general, (3) is used for fitting approximation curves [18].

Results And Discussion
Stopping power was calculated by Ziegler and Bethe formula for the first time the stopping power wascalculated on two different types Polyurethane C17H16N2O4, and Polyethylene terephthalate C10H8O4 which as a polymeric materials for manufacture the astronaut suit, and with a proton energy range of(10 -2 keV to 10 3 keV), the electrons'energy range(10 keV to 10 5 keV).The program has been implemented in a language MATLAB 2013.

Conclusions
We conclude that the Bethe formula is suitable for thecontrol of the electronstopping power in the studied polymers.
We conclude that the Ziegler formula is suitable for the calculation of the proton stopping power in the studied polymers.
From Figures 1 and 2 banal (a), Calculations indicate that   decreases with increasing energy of the incident electrons at the energies (10 -10 3 ) keV because of the impactdiscontinuing power is the effect, then the total discontinuing power increases by increasing the energy of in incident electrons at the energies (10 3 -10 5 ) keV because the radiative stopping power is effective, and this energy depends on the speed of the electrons that limit the type of interactions with the target and depends on the speed of the electrons that determine the type of interactions with the target.
From Figures 1 and 2 banal (b), we note that the total discontinuing power is increases with increasing energy of the incident protons at the energies (10 -2 -50) keV due to the occurrence of ionization and irritation of the atoms of the medium, which prevail in energy loss.In the range of energy (10 2 -10 3 ) keV,we note that the total discontinuing power is decreases with increasing energy of the incident protons because the electronic shutdown is prevalent.
By calculating the Bethe-Blochformula and Ziegler formulato calculate the total stopping power in the studies polymer, it was found that results of the curve match are close to the E-star and SRIM results, respectively Someplace v, Ze and M p indicate the speed, charge, and mass of the projectile.ω p refersto the classical plasma frequency gained from the relationship ω p= √ 4πne 2 m e

TABLE 1 .
Total stopping power for electron and proton in C10H8O4 and C17H16N2O4.

TABLE 2 .
Rates of elements in C10H8O4 and C17H16N2O4.

TABLE 3 .
The coefficient of correlation of C10H8O4 and C17H16N2O4.