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An exotic atom is an otherwise normal atom
Atom

|-! bgcolor=gray | Properties|-||}The atom is a basic unit of matter consisting of a dense, central atomic nucleus surrounded by a electron cloud of electric charge electrons....
 in which one or more sub-atomic particles have been replaced by other particles of the same charge. For example, electron
Electron

The electron is a subatomic particle that carries a negative electric charge. It has elementary particle and is believed to be a point particle....
s may be replaced by other negatively charged particles such as muon
Muon

The muon is an elementary particle similar to the electron, with negative electric charge and a spin of . Together with the electron, the tau lepton, and the three neutrinos, it is classified as a lepton....
s (muonic atoms) or pion
Pion

In particle physics, a pion is any of three subatomic particles: , and . Pions are the lightest mesons and play an important role in explaining low-energy properties of the strong nuclear force....
s (pionic atoms). Because these substitute particles are usually unstable, exotic atoms typically have short lifetimes.

muonic atom, an electron is replaced by a muon
Muon

The muon is an elementary particle similar to the electron, with negative electric charge and a spin of . Together with the electron, the tau lepton, and the three neutrinos, it is classified as a lepton....
, which, like the electron, is a lepton
Lepton

Leptons are a family of elementary particles, alongside quarks and gauge bosons . Like quarks, leptons are fermions and are subject to the electromagnetic force, the gravitational force, and weak interaction....
.






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An exotic atom is an otherwise normal atom
Atom

|-! bgcolor=gray | Properties|-||}The atom is a basic unit of matter consisting of a dense, central atomic nucleus surrounded by a electron cloud of electric charge electrons....
 in which one or more sub-atomic particles have been replaced by other particles of the same charge. For example, electron
Electron

The electron is a subatomic particle that carries a negative electric charge. It has elementary particle and is believed to be a point particle....
s may be replaced by other negatively charged particles such as muon
Muon

The muon is an elementary particle similar to the electron, with negative electric charge and a spin of . Together with the electron, the tau lepton, and the three neutrinos, it is classified as a lepton....
s (muonic atoms) or pion
Pion

In particle physics, a pion is any of three subatomic particles: , and . Pions are the lightest mesons and play an important role in explaining low-energy properties of the strong nuclear force....
s (pionic atoms). Because these substitute particles are usually unstable, exotic atoms typically have short lifetimes.

Muonic atoms

In a muonic atom, an electron is replaced by a muon
Muon

The muon is an elementary particle similar to the electron, with negative electric charge and a spin of . Together with the electron, the tau lepton, and the three neutrinos, it is classified as a lepton....
, which, like the electron, is a lepton
Lepton

Leptons are a family of elementary particles, alongside quarks and gauge bosons . Like quarks, leptons are fermions and are subject to the electromagnetic force, the gravitational force, and weak interaction....
. Since leptons are only sensitive to weak
Weak interaction

The weak interaction is one of the four fundamental interactions of nature. In the Standard Model of particle physics, it is due to the exchange of the heavy W and Z bosons....
, electromagnetic and gravitational forces, muonic atoms are governed to very high precision by the electromagnetic interaction. There are no complications due to strong forces
Strong interaction

In particle physics, the strong interaction, or strong force, or color force, holds quarks and gluons together to form protons, neutrons and other particles....
 between the lepton and the nucleus.

Since a muon is more massive than an electron, the Bohr orbits
Bohr model

In atomic physics, the Bohr model created by Niels Bohr depicts the atom as a small, positively charged atomic nucleus surrounded by electrons that travel in circular orbits around the nucleus—similar in structure to the solar system, but with electrostatic forces providing attraction, rather than gravity....
 are closer to the nucleus in a muonic atom than in an ordinary atom, and corrections due to quantum electrodynamics
Quantum electrodynamics

Quantum electrodynamics is a relativity theory quantum field theory of electrodynamics. QED was developed by a number of physicists, beginning in the late 1920s....
 are more important. Study of muonic atoms' energy level
Energy level

A Quantum mechanics system or particle that is Bound state, confined spatially, can only take on certain discrete values of energy, as opposed to Classical mechanics particles, which can have any energy....
s as well as transition rates from excited state
Excited state

Excitation is an elevation in energy level above an arbitrary baseline energy state. In physics there is a specific technical definition for energy level which is often associated with an atom being excited to an excited state....
s to the ground state therefore provide experimental tests of quantum electrodynamics.

Muon-catalyzed fusion
Muon-catalyzed fusion

Muon-catalyzed fusion is a process allowing nuclear fusion to take place at temperatures significantly lower than the temperatures required for thermonuclear fusion, even at room temperature or lower....
 is a technical application of muonic atoms.

Hadronic atoms

A hadronic atom is an atom in which one or more of the orbital electrons
Atomic orbital

An atomic orbital is a mathematical function that describes the wave-like behavior of an electron in an atom. This function can be used to calculate the probability of finding any electron of an atom in any specific region around the atom's nucleus....
 has been replaced by a hadron
Hadron

In particle physics, a hadron is a bound state of quarks. Hadrons are held together by the strong interaction, similarly to how molecules are held together by the electromagnetic force....
. Possible hadrons include meson
Meson

In particle physics, mesons are subatomic particles composed of one quark and one antiquark. They are part of the hadron particle family ? particles made of quarks....
s such as the pion
Pion

In particle physics, a pion is any of three subatomic particles: , and . Pions are the lightest mesons and play an important role in explaining low-energy properties of the strong nuclear force....
 or kaon
Kaon

In particle physics, a kaon is any one of a group of four mesons distinguished by the fact that they carry a quantum number called Strangeness ....
, yielding a mesonic atom, antiproton
Antiproton

The antiproton is the antiparticle of the proton. Antiprotons are stable, but they are typically short-lived since any collision with a proton will cause both particles to be annihilation in a burst of energy....
s, yielding a antiprotonic atom, and the particle, yielding a or sigmaonic atom.

Unlike leptons, hadrons can interact via the strong force, so the energy levels of hadronic atoms are influenced by nuclear force
Nuclear force

The nuclear force is the force between two or more nucleons. It is responsible for binding of protons and neutrons into Atomic nucleus. To a large extent, this force can be understood in terms of the exchange of virtual light mesons, such as the pions....
s between the nucleus
Atomic nucleus

The nucleus of an atom is the very dense region, consisting of nucleons , at the center of an atom. Although the size of the nucleus varies considerably according to the mass of the atom, the size of the entire atom is comparatively constant....
 and the hadron. Since the strong force is a short-range interaction, these effects are strongest if the atomic orbital involved is close to the nucleus, when the energy levels involved may broaden or disappear because of the absorption of the hadron by the nucleus. Hadronic atoms, such as pionic hydrogen and kaonic hydrogen
Kaonic hydrogen

Kaonic hydrogen is an exotic atom consisting of a negatively charged kaon orbiting a proton.Such particles were first seen, through their X-ray spectrum, at the KEK in Tsukuba, Japan....
, thus provide interesting experimental probes of the theory of strong interactions, quantum chromodynamics
Quantum chromodynamics

Quantum chromodynamics is a theory of the strong interaction , a fundamental force describing the interactions of the quarks and gluons making up hadrons ....
.

Onium


An onium (plural: onia) is the bound state of a particle and its antiparticle. The classic onium is positronium
Positronium

Positronium is a system consisting of an electron and its antimatter, a positron, bound together into an "exotic atom". The orbit of the two particles and the set of energy levels is similar to that of the hydrogen atom ....
, which consists of an electron
Electron

The electron is a subatomic particle that carries a negative electric charge. It has elementary particle and is believed to be a point particle....
 and a positron
Positron

The positron or antielectron is the antiparticle or the antimatter counterpart of the electron. The positron has an electric charge of +1, a spin of 1/2, and the same mass as an electron....
 bound together as a long-lived metastable state. Positronium has been studied since the 1950s to understand bound states in quantum field theory
Quantum field theory

Quantum field theory or QFT provides a theoretical framework for constructing quantum mechanics models of systems classically described by field or of Many-body problem....
. A recent development called non-relativistic quantum electrodynamics (NRQED) used this system as a proving ground.

Pionium
Pionium

Pionium is an exotic atom consisting of a and a meson. It is generally created by interaction of a proton beam accelerated by a particle accelerator and a target atomic nucleus....
, a bound state of two oppositely-charged pion
Pion

In particle physics, a pion is any of three subatomic particles: , and . Pions are the lightest mesons and play an important role in explaining low-energy properties of the strong nuclear force....
s, is interesting for exploring the strong interaction
Strong interaction

In particle physics, the strong interaction, or strong force, or color force, holds quarks and gluons together to form protons, neutrons and other particles....
. This should also be true of protonium
Protonium

Protonium is an exotic atom in which a proton and an antiproton orbit each other. Protonium is an electrically neutral boson with zero baryon number....
. The true analogs of positronium in the theory of strong interactions, however, are not exotic atoms but certain meson
Meson

In particle physics, mesons are subatomic particles composed of one quark and one antiquark. They are part of the hadron particle family ? particles made of quarks....
s, the quarkonium
Quarkonium

In particle physics, quarkonium designates a flavorless meson whose constituents are a quark and its own antiquark. Examples of quarkonia are the J/Psi particle and the Upsilon particle ....
 states, which are made of a heavy quark such as the charm
Charm quark

The charm quark is a second-generation quark with an electric charge of + elementary charge. It is the third most massive of the quarks, at about ....
 or bottom quark
Bottom quark

The bottom quark is a third-generation quark with a charge of -elementary charge. Although all quarks are described in a similar way by the quantum chromodynamics, the bottom quark's large mass , combined with low values of the CKM matrix elements Vub and Vcb, gives it a distinctive signature that makes it re...
 and its antiquark. (Top quark
Top quark

The top quark is the third-generation up-type quark with a charge of +elementary charge. It was discovered in 1995 by the Collider Detector at Fermilab and D0 experiment experiments at Fermilab, and is the most massive of known elementary particles....
s are so heavy that they decay through the weak force before they can form bound states.) Exploration of these states through non-relativistic quantum chromodynamics (NRQCD) and lattice QCD
Lattice QCD

In physics, lattice quantum chromodynamics is a theory of quarks and gluons formulated on a space-time lattice . That is, it is a lattice model of quantum chromodynamics, a special case of a lattice gauge theory or lattice field theory....
 are increasingly important tests of quantum chromodynamics
Quantum chromodynamics

Quantum chromodynamics is a theory of the strong interaction , a fundamental force describing the interactions of the quarks and gluons making up hadrons ....
.

Muonium
Muonium

Muonium particle physics are exotic atoms made up of an antimuon and an electron, and are given the chemical symbol . During the muon's lifetime, muonium can enter into compounds such as muonium chloride or sodium muonide ....
, despite its name, is not an onium containing a muon and an antimuon, because IUPAC assigned that name to the system of an antimuon bound with an electron.

Understanding bound states of hadron
Hadron

In particle physics, a hadron is a bound state of quarks. Hadrons are held together by the strong interaction, similarly to how molecules are held together by the electromagnetic force....
s such as pionium
Pionium

Pionium is an exotic atom consisting of a and a meson. It is generally created by interaction of a proton beam accelerated by a particle accelerator and a target atomic nucleus....
 and protonium
Protonium

Protonium is an exotic atom in which a proton and an antiproton orbit each other. Protonium is an electrically neutral boson with zero baryon number....
 is also important in order to clarify notions related to exotic hadron
Exotic hadron

Exotic hadrons are subatomic particles made of quarks , but which do not fit into the usual schema of hadrons. While bound by the strong interaction they are not predicted by the simple quark model....
s such as mesonic molecules and pentaquark
Pentaquark

A pentaquark is an hypothetical subatomic particle consisting of a group of five quarks , or more specifically four quarks and one anti-quark and is represented by T....
 states.

Hypernuclear atoms

Atoms may be composed of electrons orbiting a hypernucleus
Hypernucleus

A hypernucleus is a Atomic nucleus which contains at least one hyperon in addition to nucleons. The first was discovered by Marian Danysz and Jerzy Pniewski in 1952....
 that includes strange
Strange quark

The strange quark is a second-generation quark with a charge of −elementary charge and a strangeness of −1. It is the third-lightest quark after the up quark and down quarks, with a mass of somewhere between 80 and 130 MeV....
 particles called hyperon
Hyperon

In particle physics, a hyperon is any baryon containing one or more strange quarks, but no charm quarks or bottom quarks....
s. Such hypernuclear atoms
Hypernucleus

A hypernucleus is a Atomic nucleus which contains at least one hyperon in addition to nucleons. The first was discovered by Marian Danysz and Jerzy Pniewski in 1952....
 are generally studied for their nuclear behaviour, falling into the realm of nuclear physics
Nuclear physics

Nuclear physics is the field of physics that studies the building blocks and interactions of atomic nuclei.The most commonly known applications of nuclear physics are nuclear power and nuclear weapons, but the research field is also the basis for a far wider range of applications, including in the medical sector , in materials engineering...
 rather than atomic physics
Atomic physics

Atomic physics is the field of physics that studies atoms as an isolated system of electrons and an atomic nuclei. It is primarily concerned with the Electron configuration and...
.

Quasiparticle atoms

In condensed matter
Condensed Matter

There are at least 2 publications named Condensed Matter....
 systems, specifically in some semiconductor
Semiconductor

A semiconductor is a material that has electrical conductivity between those of a Electrical conductor and an electrical insulation; it can vary over that wide range either permanently or dynamically....
s, there are states called exciton
Exciton

An exciton is a bound state of an electron and an imaginary particle called an electron hole in an Electrical insulation or semiconductor, and such is a Coulomb-Electronic correlation electron-hole pair....
s which are bound states of an electron and an electron hole
Electron hole

An electron hole is the conceptual and mathematical opposite of an electron, useful in the study of physics and chemistry. The concept describes the lack of an electron....
.

See also

  • Positronium
    Positronium

    Positronium is a system consisting of an electron and its antimatter, a positron, bound together into an "exotic atom". The orbit of the two particles and the set of energy levels is similar to that of the hydrogen atom ....
  • Di-positronium
    Di-positronium

    Di-positronium, or dipositronium, is a molecule consisting of two atoms of positronium. It was predicted to exist in 1946 by John Archibald Wheeler, and subsequently studied theoretically, but was not observed until 2007 in an experiment done by David Cassidy and Allen Mills at the University of California, Riverside....
  • Kaonic hydrogen
    Kaonic hydrogen

    Kaonic hydrogen is an exotic atom consisting of a negatively charged kaon orbiting a proton.Such particles were first seen, through their X-ray spectrum, at the KEK in Tsukuba, Japan....
  • Muonium
    Muonium

    Muonium particle physics are exotic atoms made up of an antimuon and an electron, and are given the chemical symbol . During the muon's lifetime, muonium can enter into compounds such as muonium chloride or sodium muonide ....
    • tests of quantum electrodynamics
      Quantum electrodynamics

      Quantum electrodynamics is a relativity theory quantum field theory of electrodynamics. QED was developed by a number of physicists, beginning in the late 1920s....
  • Quarkonium
    Quarkonium

    In particle physics, quarkonium designates a flavorless meson whose constituents are a quark and its own antiquark. Examples of quarkonia are the J/Psi particle and the Upsilon particle ....
    • Quantum chromodynamics
      Quantum chromodynamics

      Quantum chromodynamics is a theory of the strong interaction , a fundamental force describing the interactions of the quarks and gluons making up hadrons ....
      , including lattice QCD
      Lattice QCD

      In physics, lattice quantum chromodynamics is a theory of quarks and gluons formulated on a space-time lattice . That is, it is a lattice model of quantum chromodynamics, a special case of a lattice gauge theory or lattice field theory....
  • Antihydrogen
    Antihydrogen

    Antihydrogen is the antimatter counterpart of hydrogen. Whereas the common hydrogen atom is composed of an electron and proton, the antihydrogen atom is made up of a positron and antiproton....