Review of Exploring the High Energy Physics Frontiers

  • Srishti Varshney Student, Department of Department of Physics & Astrophysics, Chowdhary Mahadeo Prasad Degree College, Allahabad, Uttar Pradesh, India.

Abstract

High Energy Physics (HEP) is an amazing example of human curiosity, intelligence, technical invention as it sets out on an endless adventure to unravel the most deep secrets of the cosmos. This thorough review article explores the ever-changing HEP field, providing a broad overview of current developments, key ideas, the complex interactions between theory and experiment. We visit the gloomy hallways of elusive dark matter’s riddle and embark on daring voyages to the unknown worlds of new physics. From the enormous particle accelerators that uncover subatomic riches to the intricate tapestry created by the Standard Model’s successes and tragedies.
This article summarises the enormous efforts that support our quest to comprehend the nature of reality, ranging from international collaborations that unite the minds of nations to technological wonders like the future High-Luminosity Large Hadron Collider. HEP emerges as a domain where humankind confronts the cosmos itself, seeking to uncover its most profound secrets, as the Standard Model’s reach widens and its gaps demand investigations into Supersymmetry, other dimensions, unification. In a world where mysteries abound, the relentless pursuit of knowledge pulls us forward and serves as a constant reminder that human curiosity has no bounds, as seen by our quest to understand the universe.

References

1. Baer, H., & Tata, X. (2006). Weak scale supersymmetry: From superfields to scattering events. Cambridge
University Press.
2. Burgess, C. P., Moore, G. W., & Siegel, W. (2007). Particle physics and inflationary cosmology. Physical Reports, 391(3-6), 395-492.
3. Butterworth, J. M., Davison, A. R., Rubin, M., & Salam, G. P. (2008). Jet substructure as a new Higgs search
channel at the LHC. Physical Review Letters, 100(24), 242001.
4. Ellis, J., & Silk, J. (2003). Scientific method: Defend the integrity of physics. Nature, 425(6957), 593-594.
5. Falkowski, A., & Weiler, A. (2015). Unification of gauge couplings: The alpha theorem. Journal of High Energy
Physics, 2015(10), 91.
6. Griffiths, D. (2008). Introduction to Elementary Particles. Wiley.
7. Halzen, F., & Martin, A. D. (1984). Quarks and leptons: An introductory course in modern particle physics. Wiley.
8. Hossenfelder, S. (2018). Lost in Math: How Beauty Leads Physics Astray. Basic Books.
9. Kane, G. L. (2000). Modern Elementary Particle Physics: The Fundamental Particles and Forces. Addison-Wesley.
10. Nakamura, K., & Paver, N. (2002). Review of particle physics. Journal of Physics G: Nuclear and Particle Physics, 37(7A), 075021.
11. Olive, K. A., et al. (Particle Data Group). (2020). Review of Particle Physics. Progress of Theoretical and Experimental Physics, 2020(8), 083C01.
12. Peskin, M. E., & Schroeder, D. V. (1995). An Introduction to Quantum Field Theory. Westview Press.
13. Quigg, C. (1997). Gauge Theories of the Strong, Weak, Electromagnetic Interactions. Westview Press.
14. Riordan, M., & Hoddeson, L. (1987). Crystal Fire: The Birth of the Information Age. Norton.
15. Smoot, G. F. (2019). Wrinkles in Time: The Imprint of Creation. Harper Perennial.
16. Tully, R. B., & Fisher, J. R. (1977). A new method of determining distances to galaxies. Astronomy and Astrophysics, 54(3), 661-673.
17. Weinberg, S. (1979). Cosmology. Oxford University Press.
18. Zeidler, E. (2006). Quantum Field Theory I: Basics in Mathematics and Physics. Springer.
Published
2024-05-24
How to Cite
VARSHNEY, Srishti. Review of Exploring the High Energy Physics Frontiers. Journal of Advanced Research in Applied Physics and Applications, [S.l.], v. 6, n. 1, p. 14-19, may 2024. Available at: <http://thejournalshouse.com/index.php/JoARAPA/article/view/1099>. Date accessed: 22 dec. 2024.