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1da81cb7ad
Author | SHA1 | Date | |
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Gordon McCann | 1da81cb7ad | ||
Gordon McCann | 36123b0639 |
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@ -58,8 +58,10 @@ class Reaction:
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if beamRxnEnergy < threshold:
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return INVALID_KINETIC_ENERGY
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term1 = sqrt(self.params.projectile.mass * self.params.ejectile.mass * beamRxnEnergy) / (self.params.ejectile.mass + self.residual.mass) * cos(angleRads * self.DEG2RAD)
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term1 = sqrt(self.params.projectile.mass * self.params.ejectile.mass * beamRxnEnergy) / (self.params.ejectile.mass + self.residual.mass) * cos(angleRads)
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term2 = (beamRxnEnergy * (self.residual.mass - self.params.projectile.mass) + self.residual.mass * rxnQ) / (self.params.ejectile.mass + self.residual.mass)
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if(term1**2.0 + term2) < 0:
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return INVALID_KINETIC_ENERGY
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ke1 = term1 + sqrt(term1**2.0 + term2)
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ke2 = term1 + sqrt(term1**2.0 + term2)
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@ -104,7 +104,7 @@ class SPSTarget:
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def get_rxn_layer(self, zt: int, at: int) -> int:
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for idx, layer in enumerate(self.layer_details):
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for (a, z, s) in layer.compound_list:
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for (z, a, s) in layer.compound_list:
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if at == a and zt == z:
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return idx
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return INVALID_RXN_LAYER
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@ -114,19 +114,21 @@ class SPSTarget:
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if angle == pi*0.5:
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return e_initial
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projectile = catima.Projectile(zp, ap)
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print(f"z{zp} a{ap}")
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projectile = catima.Projectile(ap, zp)
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e_current = e_initial/ap
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for (idx, layer) in enumerate(self.layer_details):
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material = catima.Material([(global_nuclear_data.get_data(z, a).mass, z, float(s)) for (z, a, s) in layer.compound_list])
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projectile.T(e_current) #catima wants MeV/u
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if idx == rxn_layer:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / (2.0 * abs(cos(angle))))
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e_current -= get_energyloss(projectile, material)
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print("e_current: ", e_current*ap)
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return e_initial - e_current*ap
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else:
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material.thickness(self.layer_details[idx].thickness * self.UG2G / abs(cos(angle)))
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e_current -= get_energyloss(projectile, material)
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print("e_current2: ", e_current*ap)
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return e_initial - e_current*ap
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@ -135,7 +137,7 @@ class SPSTarget:
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if angle == pi*0.5:
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return e_initial
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projectile = catima.Projectile(zp, ap)
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projectile = catima.Projectile(ap, zp)
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e_current = e_initial/ap
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for (idx, layer) in enumerate(self.layer_details[rxn_layer:], start=rxn_layer):
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@ -154,7 +156,7 @@ class SPSTarget:
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if angle == pi*0.5:
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return 0.0
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projectile = catima.Projectile(zp, ap)
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projectile = catima.Projectile(ap, zp)
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e_current = e_final/ap
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sublist = self.layer_details[rxn_layer:] #only care about rxn_layer -> exit
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reveresedRxnLayer = len(sublist) -1 #when reversed rxn_layer is the last layer
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