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In physics, phenomenology is the application of theoretical physics to experimental data by making quantitative predictions based upon known theories. It is in contrast to experimentation in the scientific method, in which the goal of the experiment is to test a scientific hypothesis instead of making predictions. Phenomenology is related to the philosophical notion in that these predictions describe anticipated behaviors for the phenomena in reality.

Phenomenology is commonly applied to the field of particle physics, where it forms a bridge between the mathematical models of theoretical physics (such as quantum field theories and theories of the structure of space-time) and the results of the high-energy particle experiments. It is sometimes used in other fields such as in condensed matter physics[1][2] and plasma physics,[3][4] when there are no existing theories for the observed experimental data.

Applications in particle physics
Standard Model consequences

Within the well-tested and generally accepted Standard Model, phenomenology is the calculating of detailed predictions for experiments, usually at high precision (e.g., including radiative corrections).

Examples include:

Next-to-leading order calculations of particle production rates and distributions.
Monte Carlo simulation studies of physics processes at colliders.
Extraction of parton distribution functions from data.

CKM matrix calculations
Main article: CKM matrix

The CKM matrix is useful in these predictions:

Application of heavy quark effective field theory to extract CKM matrix elements.
Using lattice QCD to extract quark masses and CKM matrix elements from experiment.

Theoretical models

In physics Beyond the Standard Model, phenomenology addresses the experimental consequences of new models: how their new particles could be searched for, how the model parameters could be measured, and how the model could be distinguished from other, competing models.
Phenomenological analysis

Phenomenological analyses, in which one studies the experimental consequences of adding the most general set of beyond-the-Standard-Model effects in a given sector of the Standard Model, usually parameterized in terms of anomalous couplings and higher-dimensional operators. In this case, the term "phenomenological" is being used more in its philosophy of science sense.
See also

Phenomenological quantum gravity

References

"Phenomenological Theory", Condensed Matter Physics, John Wiley & Sons, Inc., 2010-11-30, pp. 611–631, doi:10.1002/9780470949955.ch20, ISBN 9780470949955
Malcherek, T.; Salje, E. K. H.; Kroll, H. (1997). "A phenomenological approach to ordering kinetics for partially conserved order parameters". Journal of Physics: Condensed Matter. 9 (38): 8075. Bibcode:1997JPCM....9.8075M. doi:10.1088/0953-8984/9/38/013. ISSN 0953-8984.
Moret, J.-M.; Supra, E. Tore (1992). "Tokamak transport phenomenology and plasma dynamic response". Nuclear Fusion. 32 (7): 1241. Bibcode:1992NucFu..32.1241M. doi:10.1088/0029-5515/32/7/I13. ISSN 0029-5515.

Roth, J. Reece; Dai, Xin; Rahel, Jozef; Sherman, Daniel (2005-01-10). The Physics and Phenomenology of Paraelectric One Atmosphere Uniform Glow Discharge Plasma (OAUGDP) Actuators for Aerodynamic Flow Control. 43rd AIAA Aerospace Sciences Meeting and Exhibit. doi:10.2514/6.2005-781. ISBN 9781624100642.

External links

Papers on phenomenology are available on the hep-ph archive of the ArXiv.org e-print archive
List of topics on phenomenology from IPPP, the Institute for Particle Physics Phenomenology at University of Durham, UK
Collider Phenomenology: Basic knowledge and techniques, lectures by Tao Han
Pheno '08 Symposium on particle physics phenomenology, including slides from the talks linked from the symposium program.

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Branches of physics
Divisions

Theoretical Computational Experimental Applied

Classical

Classical mechanics Acoustics Classical electromagnetism Optics Thermodynamics Statistical mechanics

Modern

Quantum mechanics Special relativity General relativity Particle physics Nuclear physics Quantum chromodynamics Atomic, molecular, and optical physics Condensed matter physics Cosmology Astrophysics

Interdisciplinary

Atmospheric physics Biophysics Chemical physics Engineering physics Geophysics Materials science Mathematical physics

See also

History of physics Nobel Prize in Physics Timeline of physics discoveries Theory of everything

Physics Encyclopedia

World

Index

Hellenica World - Scientific Library

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