59002
doi
10.5281/zenodo.59002
oai:zenodo.org:59002
The Gitter Badger
Gitter
neutrino: A Prerelease with plentiful contents
OctoMiao
University of New Mexico
url:https://github.com/NeuPhysics/neutrino/tree/0.1.1
info:eu-repo/semantics/openAccess
Other (Open)
<p>Table of Contents</p>
<ol>
<li>Preliminary
1.1. Common Sense
1.1.1. Units
1.1.2. Useful Conversions in Neutrino Physics
1.1.3. Diagrams
1.1.4. Refs and Notes
1.2. Physics
1.2.1. Reactions Related to Neutrinos
1.2.2. What is a Neutrino Particle?
1.2.3. Chirality and Helicity
1.2.4. Majorana or Dirac
1.2.5. States
1.2.6. Statistics
1.2.7. Refs & Notes
1.3. Mathematics Related
1.3.1. Pauli Matrices
1.3.2. The Equations
1.3.3. Equation Solving
1.3.4. Qualitative Analysis
1.4. Questions
1.4.1. Astrophysics</li>
<li>Masses of Neutrinos
2.1. Theories of Neutrino Mass
2.1.1. Majorana Particle
2.1.2. Refs & Notes
2.2. Determine Neutrino Mass
2.2.1. Experiments</li>
<li>Experiments
3.1. Neutrino Sources
3.2. Concepts in Experiments
3.2.1. Prediction of Theory
3.2.2. Sensitivity
3.2.3. Review of Experiments
3.2.4. Low Energy Neutrino Detection
3.2.5. Refs & Notes
3.3. List of Neutrino Experiments</li>
<li>Oscillations
4.1. How Do Neutrinos Propagate
4.1.1. Wave Packet Treatment
4.2. Two-flavor and Three-flavor
4.2.1. Oscillation Scales
4.2.2. Refs & Notes
4.3. Evidence of Oscillations
4.3.1. Results of Experiments
4.3.2. Hamiltonian, Equation of Motion and Solution
4.3.3. Matter Effect - An Introduction
4.3.4. Q&A
4.4. Vacuum Oscillation
4.4.1. Survival Problem
4.4.2. Two Flavor States
4.4.3. The Standard Math for 2 Flavor Neutrino
4.4.4. Numerical Results for 2 Flavor Neutrino Oscillations
4.4.5. 3 Flavor Oscillations
4.4.6. Ternary Diagram
4.4.7. Understanding the Mixing Angles
4.4.8. Refs and Notes</li>
<li>Interaction With Matter
5.1. MSW Effect
5.1.1. An Introduction to MSW Effect
5.1.2. Solar Neutrinos and MSW Effect
5.1.3. Numerical Results
5.1.4. Experiments
5.1.5. MSW Triangle
5.1.6. Refs and Notes
5.2. MSW Refraction, Resonance and Non-adiabacity
5.2.1. 2 Flavor Neutrino Oscillations and Matter Effect
5.2.2. Constant Electron Number Density
5.2.3. Adiabatic Limit
5.2.4. General Discussion of Matter Effect
5.2.5. Landau-Zener Transition of Neutrinos
5.3. Parametric Resonance
5.3.1. Parametric Resonance
5.3.2. Castle Wall Potential
5.3.3. Refs and Notes
5.4. Matter as Driven Energy
5.4.1. Oscillation in Matter and Vacuum
5.4.2. Rabi-like Transition
5.4.3. Analytical Attack
5.4.4. Period Matter Potential (NON-PHYSICAL)
5.4.5. Constant Matter with Periodic Perturbation
5.4.6. Resoances
5.4.7. Refs & Notes</li>
<li>Collective Behavior
6.1. Collective Phenomenon
6.1.1. Spectral Split
6.2. Bipolar Model
6.3. Dense Homogeneous Isotropic Neutrino Gas
6.4. Refs & Notes</li>
<li>Instability
7.1. Self-Interaction Instability
7.1.1. Linear Stability Analysis
7.1.2. Neutrino Self Interaction and Instability
7.1.3. Refs & Notes
7.2. List of Instabilities
7.2.1. Bimodal Instability
7.2.2. Multi-angle Instability
7.2.3. MAA
7.3. Bimodal Oscillations</li>
<li>Pictures
8.1. Some Useful Physics Pictures
8.1.1. Magnetic Spin
8.1.2. Coupled Pendulum
8.1.3. Gyroscope or Spinning Top Picture
8.1.4. Polarization Vector
8.1.5. Neutrino-neutrino Interaction and BCS Theory
8.2. Flavor Isospin
8.2.1. Neutrino Flavour Isospin
8.2.2. Graphical Representation of Flavor Isospin
8.2.3. Refs & Notes</li>
<li>Models
9.1. Homogeneous and Isotropic Neutrino Gas
9.1.1. What to expect?
9.1.2. Solving Eqns</li>
<li>Statistical Physics
10.1. Neutrino Oscillation And Master Equation
10.1.1. Quantum Master Equation
10.1.2. Vacuum Oscillation Master Equation
10.1.3. Neutrino Oscillation in Matter - A Possible Master Equation Approach
10.1.4. Self Interaction Between Neutrinos
10.1.5. Refs & Notes</li>
<li>Geometric Phase
11.1. Review of Geometric Phases
11.1.1. Berry Phase
11.1.2. Refs & Notes
11.2. Neutrino Oscillations and Berry Phase
11.2.1. Notes & References</li>
<li>Astrophysics
12.1. Stars as Neutrino Factories
12.1.1. Neutrinos in Astrophysics
12.1.2. Solar Neutrino Spectrum
12.1.3. Neutrino Spectrum with Thermal and Relativistic Modifications
12.1.4. Supernova Neutrinos and Conclusion
12.1.5. Refs & Notes
12.2. Supernova
12.2.1. Neutrino Oscillations</li>
<li>Gravity
13.1. Effect of Gravitation
13.1.1. Evaluation
13.1.2. Refs & Notes</li>
<li>Neutrinos and Cosmology
14.1. Baryon Asymmetry in the Univserse
14.2. Cosmic Neutrino Background
14.2.1. Cosmic Neutrino Background
14.2.2. Refs & Notes</li>
<li>Other Topics
15.1. Basis
15.1.1. Rotation of States
15.1.2. Rotation of Pauli Matrices
15.1.3. Rotation of Hamiltonian
15.1.4. Examples of Rotating Basis
15.1.5. Refs & Notes
15.2. Qualitative Analysis
15.2.1. Oscillation Period, Frequency and Energy
15.2.2. Refs and Notes
15.3. Neutrino Cheat Sheet
15.3.1. Refs & Notes
15.4. Frequently Asked Questions
15.4.1. Refs & Notes</li>
<li>References</li>
<li>Acknowledgement</li>
</ol>
Zenodo
2016-07-29
info:eu-repo/semantics/other
593019
0.1.1
1579937244.559151
27611035
md5:0f467655160d48ae058aaf7f60284e3b
https://zenodo.org/records/59002/files/neutrino-0.1.1.zip
public
https://github.com/NeuPhysics/neutrino/tree/0.1.1
Is supplement to
url
10.5281/zenodo.593019
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doi