JSci.physics.particles.MuonNeutrino Maven / Gradle / Ivy

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JSci is a set of open source Java packages. The aim is to encapsulate scientific methods/principles in the most natural way possible. As such they should greatly aid the development of scientific based software. It offers: abstract math interfaces, linear algebra (support for various matrix and vector types), statistics (including probability distributions), wavelets, newtonian mechanics, chart/graph components (AWT and Swing), MathML DOM implementation, ... Note: some packages, like javax.comm, for the astro and instruments package aren't listed as dependencies (not available).

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package JSci.physics.particles;

import JSci.physics.quantum.QuantumParticle;

/**
* A class representing muon neutrinos.
* @version 1.5
* @author Mark Hale
*/
public final class MuonNeutrino extends Lepton {
        /**
        * Constructs a muon neutrino.
        */
        public MuonNeutrino() {}
        /**
        * Returns the rest mass (MeV).
        * @return 0.0
        */
        public double restMass() {return 0.0;}
        /**
        * Returns the electric charge.
        * @return 0
        */
        public int charge() {return 0;}
        /**
        * Returns the electron lepton number.
        * @return 0
        */
        public int eLeptonQN() {return 0;}
        /**
        * Returns the muon lepton number.
        * @return 1
        */
        public int muLeptonQN() {return 1;}
        /**
        * Returns the tau lepton number.
        * @return 0
        */
        public int tauLeptonQN() {return 0;}
        /**
        * Returns the antiparticle of this particle.
        */
        public QuantumParticle anti() {
                return new AntiMuonNeutrino();
        }
        /**
        * Returns true if qp is the antiparticle.
        */
        public boolean isAnti(QuantumParticle qp) {
                return (qp!=null) && (qp instanceof AntiMuonNeutrino);
        }
        /**
        * Returns a string representing this class.
        */
        public String toString() {
                return new String("Muon neutrino");
        }
        /**
        * Emits a W+.
        */
        public Muon emit(WPlus w) {
                Muon e=new Muon();
                e.momentum=momentum.subtract(w.momentum);
                return e;
        }
        /**
        * Absorbs a W-.
        */
        public Muon absorb(WMinus w) {
                Muon e=new Muon();
                e.momentum=momentum.add(w.momentum);
                return e;
        }
        /**
        * Emits a Z0.
        */
        public MuonNeutrino emit(ZZero z) {
                momentum=momentum.subtract(z.momentum);
                return this;
        }
        /**
        * Absorbs a Z0.
        */
        public MuonNeutrino absorb(ZZero z) {
                momentum=momentum.add(z.momentum);
                return this;
        }
}