Matches in DBpedia 2016-04 for { <http://dbpedia.org/resource/Lambda_baryon> ?p ?o }
- Lambda_baryon abstract "The Lambda baryons are a family of subatomic hadron particles that have the symbols Λ0, Λ+c, Λ0b, and Λ+t and have +1 elementary charge or are neutral. They are baryons containing three different quarks: one up, one down, and one third quark, which can be a strange (Λ0), a charm (Λ+c), a bottom (Λ0b), or a top (Λ+t) quark. The top Lambda is not expected to be observed as the Standard Model predicts the mean lifetime of top quarks to be roughly 6975500000000000000♠5×10−25 s. This is about one-twentieth the timescale for strong interactions, and, therefore it does not form hadrons.The Lambda baryon Λ0 was first discovered in October 1950, by V. D. Hopper and S. Biswas of the University of Melbourne, as a neutral V particle with a proton as a decay product, thus correctly distinguishing it as a baryon, rather than a meson i.e., different in kind from the K meson discovered in 1947 by Rochester and Butler; they were produced by cosmic rays and detected in photographic emulsions flown in a balloon at 70,000 feet (21,000 m). Though the particle was expected to live for 6977099999999999999♠~1×10−23 s, it actually survived for 6990100000000000000♠~1×10−10 s. The property that caused it to live so long was dubbed strangeness and led to the discovery of the strange quark. Furthermore, these discoveries led to a principle known as the conservation of strangeness, wherein lightweight particles do not decay as quickly if they exhibit strangeness (because non-weak methods of particle decay must preserve the strangeness of the decaying baryon).The Lambda baryon has also been observed in atomic nuclei called hypernuclei. These nuclei contain the same number of protons and neutrons as a known nucleus, but also contains one or in rare cases two Lambda particles. In such a scenario, the Lambda slides into the center of the nucleus (it is not a proton or a neutron, and thus is not affected by the Pauli exclusion principle), and it binds the nucleus more tightly together due to its interaction via the strong force. In a lithium isotope (Λ7Li), it made the nucleus 19% smaller.".
- Lambda_baryon wikiPageExternalLink lambda.html.
- Lambda_baryon wikiPageExternalLink s033.pdf.
- Lambda_baryon wikiPageExternalLink s040.pdf.
- Lambda_baryon wikiPageID "7141462".
- Lambda_baryon wikiPageLength "10072".
- Lambda_baryon wikiPageOutDegree "62".
- Lambda_baryon wikiPageRevisionID "668924014".
- Lambda_baryon wikiPageWikiLink Baryon.
- Lambda_baryon wikiPageWikiLink Baryon_number.
- Lambda_baryon wikiPageWikiLink Bottom_quark.
- Lambda_baryon wikiPageWikiLink Bottomness.
- Lambda_baryon wikiPageWikiLink Category:Baryons.
- Lambda_baryon wikiPageWikiLink Charge_(physics).
- Lambda_baryon wikiPageWikiLink Charm_(quantum_number).
- Lambda_baryon wikiPageWikiLink Charm_quark.
- Lambda_baryon wikiPageWikiLink Down_quark.
- Lambda_baryon wikiPageWikiLink Electronvolt.
- Lambda_baryon wikiPageWikiLink Elementary_charge.
- Lambda_baryon wikiPageWikiLink European_Physical_Journal_C.
- Lambda_baryon wikiPageWikiLink Exponential_decay.
- Lambda_baryon wikiPageWikiLink Hadron.
- Lambda_baryon wikiPageWikiLink Hadronization.
- Lambda_baryon wikiPageWikiLink HyperPhysics.
- Lambda_baryon wikiPageWikiLink Hypernucleus.
- Lambda_baryon wikiPageWikiLink Invariant_mass.
- Lambda_baryon wikiPageWikiLink Isospin.
- Lambda_baryon wikiPageWikiLink Kaon.
- Lambda_baryon wikiPageWikiLink List_of_baryons.
- Lambda_baryon wikiPageWikiLink Lithium.
- Lambda_baryon wikiPageWikiLink Meson.
- Lambda_baryon wikiPageWikiLink Neutral_particle.
- Lambda_baryon wikiPageWikiLink Parity_(physics).
- Lambda_baryon wikiPageWikiLink Particle_Data_Group.
- Lambda_baryon wikiPageWikiLink Pauli_exclusion_principle.
- Lambda_baryon wikiPageWikiLink Physics_Letters.
- Lambda_baryon wikiPageWikiLink Progress_in_Particle_and_Nuclear_Physics.
- Lambda_baryon wikiPageWikiLink Proton.
- Lambda_baryon wikiPageWikiLink Quark_model.
- Lambda_baryon wikiPageWikiLink Second.
- Lambda_baryon wikiPageWikiLink Speed_of_light.
- Lambda_baryon wikiPageWikiLink Standard_Model.
- Lambda_baryon wikiPageWikiLink Strange_quark.
- Lambda_baryon wikiPageWikiLink Strangeness.
- Lambda_baryon wikiPageWikiLink Subatomic_particle.
- Lambda_baryon wikiPageWikiLink Top_quark.
- Lambda_baryon wikiPageWikiLink Topness.
- Lambda_baryon wikiPageWikiLink Total_angular_momentum_quantum_number.
- Lambda_baryon wikiPageWikiLink University_of_Melbourne.
- Lambda_baryon wikiPageWikiLink Up_quark.
- Lambda_baryon wikiPageWikiLink V_particle.
- Lambda_baryon wikiPageWikiLinkText "".
- Lambda_baryon wikiPageWikiLinkText "''Λ''".
- Lambda_baryon wikiPageWikiLinkText "''''".
- Lambda_baryon wikiPageWikiLinkText "Lambda baryon".
- Lambda_baryon wikiPageWikiLinkText "Lambda particle".
- Lambda_baryon wikiPageWikiLinkText "Lambda".
- Lambda_baryon wikiPageWikiLinkText "Lambda-zero hyperons".
- Lambda_baryon wikiPageWikiLinkText "lambda baryon".
- Lambda_baryon wikiPageWikiLinkText "lambda particle".
- Lambda_baryon wikiPageWikiLinkText "lambda".
- Lambda_baryon wikiPageWikiLinkText "Λ".
- Lambda_baryon wikiPageUsesTemplate Template:Cite_journal.
- Lambda_baryon wikiPageUsesTemplate Template:Cite_web.
- Lambda_baryon wikiPageUsesTemplate Template:Convert.
- Lambda_baryon wikiPageUsesTemplate Template:Frac.
- Lambda_baryon wikiPageUsesTemplate Template:Note.
- Lambda_baryon wikiPageUsesTemplate Template:Particles.
- Lambda_baryon wikiPageUsesTemplate Template:Portal.
- Lambda_baryon wikiPageUsesTemplate Template:Ref.
- Lambda_baryon wikiPageUsesTemplate Template:Reflist.
- Lambda_baryon wikiPageUsesTemplate Template:Subatomic_particle.
- Lambda_baryon wikiPageUsesTemplate Template:Val.
- Lambda_baryon subject Category:Baryons.
- Lambda_baryon hypernym Family.
- Lambda_baryon type Fermion.
- Lambda_baryon type Hadron.
- Lambda_baryon type Physic.
- Lambda_baryon comment "The Lambda baryons are a family of subatomic hadron particles that have the symbols Λ0, Λ+c, Λ0b, and Λ+t and have +1 elementary charge or are neutral. They are baryons containing three different quarks: one up, one down, and one third quark, which can be a strange (Λ0), a charm (Λ+c), a bottom (Λ0b), or a top (Λ+t) quark. The top Lambda is not expected to be observed as the Standard Model predicts the mean lifetime of top quarks to be roughly 6975500000000000000♠5×10−25 s.".
- Lambda_baryon label "Lambda baryon".
- Lambda_baryon sameAs Q424019.
- Lambda_baryon sameAs Baryon_lambda.
- Lambda_baryon sameAs Λ-Baryon.
- Lambda_baryon sameAs Barión_lambda.
- Lambda_baryon sameAs ذره_لاندا.
- Lambda_baryon sameAs Lambda_(baryoni).
- Lambda_baryon sameAs Baryon_Lambda.
- Lambda_baryon sameAs Barione_lambda.
- Lambda_baryon sameAs ラムダ粒子.
- Lambda_baryon sameAs 람다_중입자.
- Lambda_baryon sameAs Lambda_daļiņa.
- Lambda_baryon sameAs Lambdabaryon.
- Lambda_baryon sameAs Lambda_(cząstka).
- Lambda_baryon sameAs Bárion_Lambda.
- Lambda_baryon sameAs m.0h6f85.
- Lambda_baryon sameAs Лямбда-барион.
- Lambda_baryon sameAs Častica_lambda.
- Lambda_baryon sameAs Barion_Λ.
- Lambda_baryon sameAs Lambdabaryon.
- Lambda_baryon sameAs Lambda_baryon.