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• Bootstrap_model abstract "In, the term "bootstrap model" is used for a class of theories that use very general consistency criteria to determine the form of a quantum theory from some assumptions on the spectrum of particles. It is a form of S-matrix theory.In the 1960s and '70s, the ever-growing list of strongly interacting particles — mesons and baryons — made it clear to physicists that none of these particles are elementary. Geoffrey Chew and others went so far as to question the distinction between composite and elementary particles, advocating a "nuclear democracy" in which the idea that some particles were more elementary than others was discarded. Instead, they sought to derive as much information as possible about the strong interaction from plausible assumptions about the S-matrix, which describes what happens when particles of any sort collide, an approach advocated by Werner Heisenberg two decades earlier.The reason the program had any hope of success was because of crossing, the principle that the forces between particles are determined by particle exchange. Once the spectrum of particles is known, the force law is known, and this means that the spectrum is constrained to bound states which form through the action of these forces. The simplest way to solve the consistency condition is to postulate a few elementary particles of spin less than or equal to one, and construct the scattering perturbatively through field theory, but this method does not allow for composite particles of spin greater than 1 and without the then undiscovered phenomenon of confinement, it is naively inconsistent with the observed Regge behavior of hadrons.Chew and followers believed that it would be possible to use crossing symmetry and Regge behavior to formulate a consistent S-matrix for infinitely many particle types. The Regge hypothesis would determine the spectrum, crossing and analyticity would determine the scattering amplitude (the forces), while unitarity would determine the self-consistent quantum corrections in a way analogous to including loops. The only fully successful implementation of the program required another assumption to organize the mathematics of unitarity (the narrow resonance approximation). This meant that all the hadrons were stable particles in the first approximation, so that scattering and decays could be thought of as a perturbation. This allowed a bootstrap model with infinitely many particle types to be constructed like a field theory — the lowest order scattering amplitude should show Regge behavior and unitarity would determine the loop corrections order by order. This is how Gabriele Veneziano and many others, constructed string theory, which remains the only theory constructed from general consistency conditions and mild assumptions on the spectrum.Many in the bootstrap community believed that field theory, which was plagued by problems of definition, was fundamentally inconsistent at high energies. Some believed that there is only one consistent theory which requires infinitely many particle species and whose form can be found by consistency alone. This is nowadays known not to be true, since there are many theories which are nonperturbatively consistent, each with their own S-matrix. Without the narrow-resonance approximation, the bootstrap program did not have a clear expansion parameter, and the consistency equations were often complicated and unwieldy, so that the method had limited success. It fell out of favor with the rise of quantum chromodynamics, which described mesons and baryons in terms of elementary particles called quarks and gluons. "Bootstrapping" here refers to 'pulling oneself up by one's bootstraps,' as particles were surmised to be held together by forces consisting of exchanges of the particles themselves.".
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• Bootstrap_model wikiPageWikiLink Baryon.
• Bootstrap_model wikiPageWikiLink Bootstrapping.
• Bootstrap_model wikiPageWikiLink Category:Particle_physics.
• Bootstrap_model wikiPageWikiLink Color_confinement.
• Bootstrap_model wikiPageWikiLink Composite_particle.
• Bootstrap_model wikiPageWikiLink Consistency.
• Bootstrap_model wikiPageWikiLink Crossing_(physics).
• Bootstrap_model wikiPageWikiLink Elementary_particle.
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• Bootstrap_model wikiPageWikiLink Geoffrey_Chew.
• Bootstrap_model wikiPageWikiLink Gluon.
• Bootstrap_model wikiPageWikiLink Gluons.
• Bootstrap_model wikiPageWikiLink Hadron.
• Bootstrap_model wikiPageWikiLink List_of_particles.
• Bootstrap_model wikiPageWikiLink Meson.
• Bootstrap_model wikiPageWikiLink Perturbation_theory_(quantum_mechanics).
• Bootstrap_model wikiPageWikiLink Quantum_chromodynamics.
• Bootstrap_model wikiPageWikiLink Quantum_field_theory.
• Bootstrap_model wikiPageWikiLink Quark.
• Bootstrap_model wikiPageWikiLink Quarks.
• Bootstrap_model wikiPageWikiLink Regge_theory.
• Bootstrap_model wikiPageWikiLink S-matrix.
• Bootstrap_model wikiPageWikiLink S-matrix_theory.
• Bootstrap_model wikiPageWikiLink Scattering_amplitude.
• Bootstrap_model wikiPageWikiLink Stanley_Mandelstam.
• Bootstrap_model wikiPageWikiLink String_theory.
• Bootstrap_model wikiPageWikiLink Strong_interaction.
• Bootstrap_model wikiPageWikiLink Tullio_Regge.
• Bootstrap_model wikiPageWikiLink Unitarity_(physics).
• Bootstrap_model wikiPageWikiLink Werner_Heisenberg.
• Bootstrap_model wikiPageWikiLinkText "Bootstrap model".
• Bootstrap_model wikiPageWikiLinkText "analytic S-matrix".
• Bootstrap_model wikiPageWikiLinkText "bootstrap model".
• Bootstrap_model wikiPageWikiLinkText "bootstrap program".
• Bootstrap_model wikiPageWikiLinkText "bootstrap theory".
• Bootstrap_model wikiPageWikiLinkText "self-consistency conditions".
• Bootstrap_model hasPhotoCollection Bootstrap_model.
• Bootstrap_model wikiPageUsesTemplate Template:Multiple_issues.
• Bootstrap_model subject Category:Particle_physics.
• Bootstrap_model type Physic.
• Bootstrap_model comment "In, the term "bootstrap model" is used for a class of theories that use very general consistency criteria to determine the form of a quantum theory from some assumptions on the spectrum of particles. It is a form of S-matrix theory.In the 1960s and '70s, the ever-growing list of strongly interacting particles — mesons and baryons — made it clear to physicists that none of these particles are elementary.".
• Bootstrap_model label "Bootstrap model".
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