Results 241 to 250 of about 665,376 (285)

Quantum Chromodynamics, the Strong Nuclear Force

1992
There are no free quarks in the universe. All quarks—free in the fireball during the birth of the universe—are now confined to protons and neutrons called baryons. The combination of three of the u and d quarks, held together by the strong nuclear force and their carrier (the gluons), formed the protons and neutrons, the nucleus of atoms.
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STRUCTURE OF K^-pp SYSTEM AND SUPER-STRONG NUCLEAR FORCE BY MIGRATING K^- MESON: ITS THEORETICAL BACKGROUND

International Journal of Modern Physics A, 2009
We have studied the structure of K-pp by solving this system in a variational method, starting from the ansatz that Λ* = Λ(1405) is a K-p quasi-bound state. The structure of K-pp reveals a molecular feature, namely, the K- in Λ* as an "atomic center" plays a key role in producing strong covalent bonding with the other proton.
YOSHINORI AKAISHI, TOSHIMITSU YAMAZAKI
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PARITY-NONCONSERVATION EFFECTS IN THE TWO-NUCLEON SYSTEM-SENSITIVITY TO THE SHORT-RANGE STRONG NUCLEAR FORCE

1976
Publisher Summary This chapter explores the parity-nonconservation effects in the two-nucleon system-sensitivity to the short-range strong nuclear force. The weak N–N interaction is of short range, and its calculated effects are expected to be sensitive to the short-range correlations of the nuclear wave function.
B.A. Craver, E. Fischbach, Y.E. Kim, A. Tubis   +3 more
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Effect of strong $\bar{\rm p}$-p nuclear forces on the rate of the low-energy three-body protonium formation reaction: $\bar{p} + H_��(1s) \rightarrow (\bar{p} p)_�� + ��^-$

2016
Preprint: 33 pages, 11 figures, 1 ...
Sultanov, Renat A., Guster, Dennis, Adhikari, Sadhan K.   +2 more
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The Fundamental Nature of the Strong and Weak Nuclear Forces

This article presents a novel understanding of the strong and weak nuclear forces as emergent properties of relativistic space-time constraints. We demonstrate that the strong nuclear force arises from Planck-scale wells created by quark confinement, while the weak force emerges as a residual effect of fundamental well instability.
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The Strong Nuclear Force as Localized Temporal Compression: A Chronos-Theoretic Model

This paper presents a Chronos-theoretic model of the strong nuclear force, reframing it as a localized manifestation of temporal compression within a structured time field. Departing from conventional quantum chromodynamics (QCD) and gluon-mediated particle exchange, this model treats the strong interaction as a Gaussian-shaped well in time curvature ...
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Electrical Attraction Law by Electron Flow Unifies Attraction and Repulsion into a single Attraction Force and solves Strong Nuclear Force Mystery

International Journal of Multidisciplinary Research and Growth Evaluation
Opposite electric poles attract while like poles repel, this is a very simple concept after experimental observation, this interpretation create basis of Strong Nuclear Force mystery; on atomic nucleus protons hold positive charge, and don’t repel each other due to Strong Force glue.
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Application of a Theory of Everything (TOE) Model to Explain the Strong Nuclear Force

This paper explores the application of a Theory of Everything (TOE) model to the strong nuclear force, integrating concepts of complexity, probability, and scale to explain quark confinement and asymptotic freedom within nucleons. By aligning the TOE model with principles of Quantum Chromodynamics (QCD), we assess the model’s ability to capture the ...
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Molecular imaging in oncology: Current impact and future directions

Ca-A Cancer Journal for Clinicians, 2022
Steven P Rowe, Martin G Pomper
exaly  

Uncertainty Principle and Numerical Value Determination of the Strong Nuclear Force

SSRN Electronic Journal, 2023
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