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Subatomic particle
particle physics, the phi meson or ϕ meson is a vector meson formed of a strange quark and a strange antiquark. It was the ϕ meson's unexpected propensity
Phi_meson
Subatomic particle; lightest meson
In particle physics, a pion (/ˈpaɪ.ɒn/, PIE-on) or pi meson, denoted with the Greek letter pi (π), is any of three subatomic particles: π0 , π+ , and
Pion
Subatomic particle; made of equal numbers of quarks and antiquarks
In particle physics, a meson (/ˈmiːzɒn, ˈmɛzɒn/) is a type of hadronic subatomic particle composed of an equal number of quarks and antiquarks, usually
Meson
Subatomic particle
μ− and antimuons by μ+ . Formerly, muons were called mu mesons, but are not classified as mesons by modern particle physicists (see ), and that name is
Muon
Quantum particle
In particle physics, a kaon, also called a K meson and denoted K, is any of a group of four mesons distinguished by a quantum number called strangeness
Kaon
Meson with total spin 1 and odd parity
the phi meson (φ) has a higher mass around 1020 MeV/c2, indicates that the light-quark vector mesons appear in nearly pure states, with the φ meson having
Vector_meson
Subatomic particle
meson (ω) is a flavourless meson formed from a superposition of an up quark–antiquark and a down quark–antiquark pair. It is part of the vector meson
Omega_meson
Isosinglet meson made of quarks and antiquarks
and eta prime meson (η′) are isosinglet mesons made of a mixture of up, down and strange quarks and their antiquarks. The charmed eta meson (η c) and bottom
Eta_and_eta_prime_mesons
Classification scheme for hadrons
prime meson was originally classified by itself as a singlet: η′ Under the quark model later developed, it is better viewed as part of a meson nonet,
Eightfold_way_(physics)
Subatomic particle
In particle physics, B mesons are mesons composed of a bottom antiquark and either an up (B+ ), down (B0 ), strange (B0 s) or charm quark (B+ c). The
B_meson
Type of quark
found in composite subatomic particles called hadrons such as the J/psi meson and the charmed baryons created in particle accelerator collisions. Several
Charm_quark
vector mesons. See list of particles for a more detailed list of particles found in particle physics. This article contains a list of mesons, unstable
List_of_mesons
Transient quantum fluctuation (physics)
and protons together in nuclei, and is due to virtual mesons such as the pi meson and rho meson. The weak nuclear force is the result of exchange by virtual
Virtual_particle
Meson that oscillates between matter and antimatter
The B s meson is a type of unstable subatomic particle known as a meson. It is notable for its observed ability to spontaneously switch into its own antiparticle
Strange_B_meson
Field of physics that studies atomic interactions
together. In the Yukawa interaction a virtual particle, later called a meson, mediated a force between all nucleons, including protons and neutrons.
Nuclear_physics
Particle in physics
D mesons are the lightest particles that contain charm quarks. They are often studied to gain knowledge on the weak interaction. The strange D mesons (Ds)
D_meson
Hypothetical subatomic particle
antiquark to become bound and confined, forming a highly stable, neutral "QED meson." Under this interpretation, the anomalous 17 MeV signals correspond to
X17_particle
Elementary particle, fundamental constituent of matter
within hadrons, which include baryons (such as protons and neutrons) and mesons, or in quark–gluon plasmas. For this reason, much of what is known about
Quark
Composite subatomic particle
atom) are examples of baryons; pions are an example of a meson. A tetraquark state (an exotic meson), named the Z(4430)−, was discovered in 2007 by the Belle
Hadron
Subatomic particle made of a charm quark and antiquark
(J/psi) meson /ˈdʒeɪ ˈsaɪ ˈmiːzɒn/ is a subatomic particle, a flavor-neutral meson consisting of a charm quark and a charm antiquark. Mesons formed by
J/psi_meson
Hypothetical particle composed of gluons
difficult to identify in particle accelerators, because they mix with ordinary meson states. In pure gauge theory, glueballs are the only states of the spectrum
Glueball
Class of elementary particles
classified as a meson at the time. After investigation, it was realized that the muon did not have the expected properties of a meson, but rather behaved
Lepton
Type of massless subatomic particle
{\displaystyle {\mathcal {L}}={\frac {1}{2}}(\partial ^{\mu }\phi ^{*})\partial _{\mu }\phi -m^{2}\phi ^{*}\phi ={\frac {1}{2}}(-ive^{-i\theta }\partial ^{\mu }\theta
Goldstone_boson
Type of quark
containing bottom quarks include: B mesons contain a bottom quark (or its antiparticle) and an up or down quark. B c and B s mesons contain a bottom quark along
Bottom_quark
List of particles in matter including fermions and bosons
exotic baryons may also exist. Ordinary mesons are made up of a valence quark and a valence antiquark. Because mesons have integer spin (0 or 1) and are not
List_of_particles
Subatomic particle
The bottom eta meson (η b) or eta-b meson is a flavourless meson formed from a bottom quark and its antiparticle. It was first observed by the BaBar experiment
Bottom_eta_meson
Subatomic particle
The Upsilon meson (ϒ) is a quarkonium state (i.e. flavourless meson) formed from a bottom quark and its antiparticle. It was discovered by the E288 experiment
Upsilon_meson
Type of quark
Examples of hadrons containing strange quarks include kaons (K), strange D mesons (D s), sigma baryons (Σ), and other strange particles. According to the
Strange_quark
Short-lived hadronic particle that is an isospin triplet
omega mesons, the rho meson carries the nuclear force within the atomic nucleus. After the octet consisting of the pions, kaons, and eta meson, the rho
Rho_meson
Subatomic Particle with Five Quarks
a two-quark meson interacting relatively weakly with each other via pion exchange (the same force that binds atomic nuclei) in a "meson-baryon molecule"
Pentaquark
Class of subatomic particle
Higgs boson) contributes to the phenomenon of mass. Other bosons, such as mesons, are composite particles made up of smaller constituents. Outside the realm
Boson
Component of an atomic nucleus
orbital angular momentum (in the spectroscopic notation) of the nucleon–meson pair, produced when it decays, and I and J are the particle's isospin and
Nucleon
Hadron (subatomic particle) that is composed of three quarks
participate in the residual strong force, which is mediated by particles known as mesons. The most familiar baryons are protons and neutrons. These particles make
Baryon
Theory of forces and subatomic particles
bind with other quarks. Hadrons can contain either a quark-antiquark pair (mesons) or three quarks (baryons). The lightest baryons are the nucleons: the proton
Standard_Model
Mathematics of a particle physics model
}-igW_{\mu }^{a}t^{a}-ig'Y_{\phi }B_{\mu }\right)\phi \right]^{2}+\mu ^{2}\phi ^{\dagger }\phi -\lambda (\phi ^{\dagger }\phi )^{2},} where λ > 0 and μ2
Mathematical formulation of the Standard Model
Mathematical_formulation_of_the_Standard_Model
Meson particles which do not fit into the quark model
physics, exotic mesons are mesons that have quantum numbers not possible in the quark model; some proposals for non-standard quark model mesons could be: glueballs
Exotic_meson
Something that has mass and volume
as well as the ordinary quark and lepton, and thus also anything made of mesons, which are unstable particles made up of a quark and an antiquark. In the
Matter
Classification scheme of hadrons
Gell-Mann–Nishijima formula individually, so any additive assembly of them will as well. Mesons are made of a valence quark–antiquark pair (thus have a baryon number of
Quark_model
Smallest unit of a chemical element
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Atom
Subatomic particle
T mesons are hypothetical mesons composed of a top quark and one additional subatomic particle. The second subatomic particle can be either an up antiquark
T_meson
Elementary particle involved with rest mass
ϕ 0 + i ϕ 3 ) {\displaystyle \phi ={\frac {1}{\sqrt {2}}}\left({\begin{array}{c}\phi ^{1}+i\phi ^{2}\\\phi ^{0}+i\phi ^{3}\end{array}}\right)\,} while
Higgs_boson
Particle smaller than an atom
proton and neutron (the two nucleons) are by far the best known; and the mesons containing an even number of quarks (almost always 2, one quark and one
Subatomic_particle
Type of quark
calculations give a more precise value: 2.01±0.14 MeV/c2. When found in mesons (particles made of one quark and one antiquark) or baryons (particles made
Up_quark
Particle whose invariant mass is zero
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Massless_particle
Hypothetical form of quarkonium
The theta meson (θ) is a hypothetical form of quarkonium (i.e. a flavourless meson) formed by a top quark (t) and top antiquark (t). As a P-odd and C-odd
Theta_meson
Principle in hadron decay rates
the final-state particles. An example of such a suppressed decay is the Phi meson into pions: φ → π+ + π− + π0 . It would be expected that this decay mode
OZI_rule
Meson with total spin 0 and odd parity
physics, a pseudoscalar meson is a meson with total spin 0 and odd parity (usually notated as JP = 0− ). Pseudoscalar mesons are commonly seen in proton–proton
Pseudoscalar_meson
Type of topological solutions in non-linear sigma models
\cdot ]} is the Lie bracket commutator, and tr is the matrix trace. The meson field (pion field, up to a dimensional factor) at spacetime coordinate x
Skyrmion
Elementary particle that mediates the strong force
between hadrons. The force mediators for these are other hadrons called mesons. Although in the normal phase of QCD single gluons may not travel freely
Gluon
Subatomic particle having no substructure
confined in an envelope of gluons that confer vastly greater mass to the mesons and baryons where quarks occur, so values for quark masses cannot be measured
Elementary_particle
Subatomic particles consisting of quarks and gluons
but which – unlike "well-known" hadrons such as protons, neutrons and mesons – consist of more than three valence quarks. By contrast, "ordinary" hadrons
Exotic_hadron
Baryon made of specific quark combinations
correctly distinguishing it as a baryon, rather than a meson, i.e. different in kind from the K meson discovered in 1947 by George Rochester and Clifford
Lambda_baryon
Elementary particle with extremely low mass
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Neutrino
Subatomic particle
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Electron_neutrino
Quasiparticle of mechanical vibrations
normal coordinates for continuum field modes ϕ k = e i k n a {\displaystyle \phi _{k}=e^{ikna}} with k = 2 π j / ( N a ) {\displaystyle k=2\pi j/(Na)} for
Phonon
Elementary subatomic particle with negative electric charge
because the energy to produce the τ+τ− pair is similar to the threshold for D meson production. The mass and spin of the tau were subsequently established by
Tau_(particle)
Elementary particle or quantum of light
protons and neutrons are substantially different. A theory called vector meson dominance (VMD) was developed to explain this effect. According to VMD,
Photon
Elementary particle with negative charge
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Electron
Symmetry between bosons and fermions
and some physicists argue the theory is dead. A supersymmetry relating mesons and baryons was first proposed, in the context of hadronic physics, by Hironari
Supersymmetry
Type of quark
Accelerator Center (SLAC) simultaneously announced the discovery of the J/ψ meson, it was soon after identified as a bound state of the missing charm quark
Top_quark
Exotic meson composed of four valence quarks
In particle physics, a tetraquark is an exotic meson composed of four valence quarks. A tetraquark state has long been suspected to be allowed by quantum
Tetraquark
Meson whose constituents are a quark and its own antiquark of the same flavor
physics, quarkonium (from quark and -onium, pl. quarkonia) is a flavorless meson whose constituents are a heavy quark and its own antiquark, making it both
Quarkonium
Bound state of an electron and positron
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Positronium
Atoms composed of exotic particles
(previously called a mu-mesic atom, now known to be a misnomer as muons are not mesons), an electron is replaced by a muon, which, like the electron, is a lepton
Exotic_atom
Study of subatomic particles and forces
an even number are called mesons. Two baryons, the proton and the neutron, make up most of the mass of ordinary matter. Mesons are unstable and the longest-lived
Particle_physics
Hypothetical field that may have driven cosmic inflation
{1}{2}}m_{P}^{2}R-{\tfrac {1}{2}}\ \partial ^{\mu }\phi ~\partial _{\mu }\phi -V(\phi )-{\tfrac {1}{2}}\xi \ R\ \phi ^{2}\ {\Bigr ]}\operatorname {d} ^{4}x\ ,}
Inflaton
Subatomic particle
1940s. The first paper on it may be Shoichi Sakata and Takesi Inoue's two-meson theory of 1942, which also involved two neutrinos. In 1962 Leon M. Lederman
Muon_neutrino
Physics term for multiple concepts
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Exotic_matter
Type of quark
calculations give a more precise value: 4.79±0.16 MeV/c2. When found in mesons (particles made of one quark and one antiquark) or baryons (particles made
Down_quark
Tendency of matter subjected to an electric field to acquire an electric dipole moment
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Polarizability
Elementary particle
a strange/anti-strange pair, for example in the Φ meson. The classification of particles, as mesons and baryons, follows the quark/anti-quark and three
Strange_particle
supersymmetric particle. T meson, hypothetical mesons composed of a top quark and one additional subatomic particle. Examples include the theta meson, formed by a top
List of hypothetical particles
List_of_hypothetical_particles
Subatomic particle
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Antiproton
Type of subatomic particle
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Fermion
Hypothetical faster-than-light particle
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Tachyon
Particle with opposite charges
antiparticle and the particle coincide: pairs of photons, Z0 bosons, π0 mesons, and hypothetical gravitons and some hypothetical WIMPs all self-annihilate
Antiparticle
Subatomic particle with no charge
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Neutron
Hypothetical particle with one magnetic pole
include (but are not limited to) spin-0 monopoles or spin-1 massive vector mesons. The term "magnetic monopole" only refers to the nature of the particle
Magnetic_monopole
Conceptual opposite of an electron
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Electron_hole
Small localized object
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Particle
Topics referred to by the same term
{\displaystyle \Phi (x)} notating its cumulative distribution function and ϕ ( x ) {\displaystyle \phi (x)} its probability density function Phi meson, in particle
Phi_(disambiguation)
Anti-particle to the electron
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Positron
Core of an atom composed of nucleons
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Atomic_nucleus
Bosons that mediate the weak interaction
collaboration observed the first exclusive decay of the Z boson to a ψ meson and a lepton–antilepton pair. Bose–Einstein statistics – Description of
W_and_Z_bosons
Elementary particles that are force carriers
of bosons: first, fundamental scalar bosons (the Higgs boson); second, mesons, which are composite bosons, made of quarks; third, larger composite, non-force-carrying
Gauge_boson
Concept in condensed matter physics
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Quasiparticle
Hypothetical subatomic particle
that has worked for the periodic table of elements and the quark model of mesons and baryons. Explain the reason for there being exactly three generations
Preon
Quasiparticles arising from EM wave coupling
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Polariton
Fermion that is its own antiparticle
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Majorana_fermion
Meson with total spin 0 and even parity
energy physics, a scalar meson is a meson with total spin 0 and even parity (usually noted as JP=0+). In contrast, pseudoscalar mesons have odd parity. The
Scalar_meson
Field with an imaginary mass
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Tachyonic_field
Quasiparticle of charge oscillations in condensed matter
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Plasmon
Subatomic particle
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Tau_neutrino
Electrically neutral group of two or more atoms
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Molecule
Effect in quantum electrodynamics
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Lamb_shift
Boson with spin equal to zero
composite particles are scalar bosons, e.g. the alpha particle and scalar mesons. The φ4-theory or quartic interaction is a popular "toy model" quantum field
Scalar_boson
Hypothetical elementary particle that mediates gravity
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Graviton
Subatomic particle with positive charge
Omega baryon Mesons Pion Rho meson Eta and eta prime mesons Bottom eta meson Phi meson J/psi meson Omega meson Upsilon meson Kaon B meson D meson Quarkonium
Proton
Type of unphysical field in quantum field theory which provides mathematical consistency
tree−ring connection which is of very great interest and importance in the meson theories and so on. And so I'm stuck to have to continue this investigation
Faddeev–Popov_ghost
Boson with spin 1
interactions. Some composite particles are vector bosons, for instance any vector meson (quark and antiquark). During the 1970s and 1980s, intermediate vector bosons
Vector_boson
PHI MESON
PHI MESON
Girl/Female
Hindu, Indian
Petal of a Flower
Boy/Male
American, Australian, British, Christian, English, French, German, Greek
Lover of Horses; Form of Phillip
Boy/Male
Gujarati, Hindu, Indian
Beautiful
Girl/Female
Hindu, Indian
Heaven and Earth Conjoined
Male
Chinese
mankind.
Boy/Male
Hindu
(Celebrity Name: Amar Upadhyay (Mihir Virani of Kyunki Saas Bhi Kabhi Bahu Thi))
Boy/Male
Chinese, Indian, Japanese, Kannada, Tamil
King; Lord Shiva
Boy/Male
African
God'.
Girl/Female
Biblical
Howling, sighing.
Boy/Male
Biblical, French, Hebrew, Indian, Irish, Parsi, Sanskrit
Fawn; Serpent; Cloud; Water; Sun
Female
Vietnamese
Vietnamese name CHI means "tree branch."
Female
Vietnamese
Vietnamese name THI means "poem."
Girl/Female
Australian, Swedish
Beloved
Girl/Female
Australian, Chinese, Japanese
Persimmon; Time; Real; Honest
Boy/Male
Biblical
My brother; my brethren.
Boy/Male
English American Greek
Fond of horses. Form of Phillip.
Male
English
Short form of English Philip, PHIL means "lover of horses."
Girl/Female
Arabic
Message
Biblical
Pau, howling; sighing,blessing,
Boy/Male
Tamil
Aryaman | ஆரà¯à®¯à®®à®¨Â
(Celebrity Name: Amar Upadhyay (Mihir Virani of Kyunki Saas Bhi Kabhi Bahu Thi))
PHI MESON
PHI MESON
Girl/Female
Tamil
Blessy | பà¯à®²à¯‡à®¸à¯à®¸à¯€Â Â
Blessing
Boy/Male
Hindu
Lord Shiva
Boy/Male
Hindu
Boy/Male
Assamese, Bengali, Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Oriya, Sanskrit, Telugu
Name of a Sage
Girl/Female
Latin Greek
Cumaean.
Girl/Female
French, German, Teutonic
Woman Warrior; Heroine; Bold Battle
Girl/Female
Tamil
One string instrument
Male
Native American
Native American Algonquin name ABUKCHEECH means "mouse."
Boy/Male
Hindu, Indian, Telugu
Name of a River
Girl/Female
British, English
Goddess
PHI MESON
PHI MESON
PHI MESON
PHI MESON
PHI MESON
n.
Any plant which produces true seeds; -- a term recently proposed to replace ph/nogam.
pl.
of Phiz
n.
One whi gives evidence.
imp. & p. p.
of Pi
n.
A colorless gas, PH3, analogous to ammonia, and having a disagreeable odor resembling that of garlic. Called also hydrogen phosphide, and formerly, phosphureted hydrogen.
n.
Same as Poi.
n.
Type confusedly mixed. See Pi.
a.
Capable of producing seeds; ph/nogamic.
n.
The house sparrow. Called also phip.
n.
The face or visage.
n.
A national food of the Hawaiians, made by baking and pounding the kalo (or taro) root, and reducing it to a thin paste, which is allowed to ferment.
v. t.
To put into a mixed and disordered condition, as type; to mix and disarrange the type of; as, to pi a form.
p. pr. & vb. n.
of Pi
n.
The hypothetical radical PH4, analogous to ammonium, and regarded as the nucleus of certain derivatives of phosphine.
v. t.
See Pi.
n.
One whi sips.
n.
See Phiz.
n.
A mass of type confusedly mixed or unsorted.
n.
A large war canoe of the Society Islands.