Submission Deadline: Dec. 20, 2014
Lead Guest Editor
Faculty of Science, University of Calabria,
Arcavacata, Rende CS, Italy
Guest Editors play a significant role in a special issue. They maintain the quality of published research and enhance the special issue’s impact. If you would like to be a Guest Editor or recommend a colleague as a Guest Editor of this special issue, please Click here
to fulfill the Guest Editor application.
Guidelines for Submission
Manuscripts can be submitted until the expiry of the deadline. Submissions must be previously unpublished and may not be under consideration elsewhere.
Papers should be formatted according to the guidelines for authors (see: http://www.sciencepublishinggroup.com/journal/guideforauthors?journalid=122
). By submitting your manuscripts to the special issue, you are acknowledging that you accept the rules established for publication of manuscripts, including agreement to pay the Article Processing Charges for the manuscripts. Manuscripts should be submitted electronically through the online manuscript submission system at http://www.sciencepublishinggroup.com/login
. All papers will be peer-reviewed. Accepted papers will be published continuously in the journal and will be listed together on the special issue website.
Atanas Todorov Atanasov
Pages: 1-11 Published Online: Jul. 13, 2014
Views 5229 Downloads 311
High energy physics has allowed us, during the last decades, to investigate the world of subatomic particles and their interactions at smaller and smaller scales, such as quarks and leptons as well as photons and a wide range of exotic particles also produced by radioactive decay and scattering processes. In the current picture these particles are considered as excitations of quantum fields interacting according their specific dynamics characterizing the fundamental interactions of Nature.
All the known elementary particles and their fundamental interactions are described, within the commonly accepted theoretical framework, by the so - called Standard Model, based on quantum field theory. Nevertheless this model is far from being complete since it can describe only three of the four fundamental interactions, leaving out the fundamental gravitational interaction. In this sense it is coherent with the actual formulation of quantum mechanics and special relativity, but not with general relativity, leading to the unification of weak and electromagnetic interactions and the consideration of strong force but being unable to include gravity in this scheme.
Despite its several experimental confirmations, it then poses a series of very crucial and unsolved questions among as the origin of gravity, the explanation of the so - called dark matter and the value of neutrinos mass. Other important conceptual aspects are represented by the high number of free parameters needed by the model and by the mechanism of particle mass formation according to the Higgs model as a symmetry breaking process.
The aim of this special issue is to explore and discuss the most novel and recent theoretical and experimental developments about the subject of high energy physics and unification of fundamental interactions also examining previously unaddressed aspects; to review, comparing and contrasting different points of view; to propose and develop new approaches of scientific research, rapidly and effectively exchanging perspectives and to encourage new lines of research.
We intend to invite front - line researcher and authors to submit original research and review papers on exploring the above subject.
Potential topics include but are not limited to:
Review of High energy physics;
Standard Model with Special Reference to Higgs Mechanism;
Quantum Field Theory;
General Relativity and Gravitation;
Dark Matter and Dark Energy;
High Energy Physics in Cosmology and Astrophysics;
String, Superstring and Cosmic String Theories;
M - Theory and Magnetic Monopole;
Interactions Unification Theories;
New Perspectives in Particles and Fields Research.