# axion

axion | axicon |

## As nouns the difference between axion and axicon

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axicon is a specialized lens with a conical surface.

#### Axion vs Axioelectric - What's the difference?

axion | axioelectric |

## In physics|lang=en terms the difference between axion and axioelectric

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axioelectric is (physics) describing the interaction of axions and electrons.

## As a noun axion

is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force.

## As an adjective axioelectric is

(physics) describing the interaction of axions and electrons.

#### Axion vs Axiverse - What's the difference?

axion | axiverse |

## In physics|lang=en terms the difference between axion and axiverse

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axiverse is (physics) a postulated universe populated by axions having sizes of many different orders of magnitude.

## As nouns the difference between axion and axiverse

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axiverse is (physics) a postulated universe populated by axions having sizes of many different orders of magnitude.

#### Axion vs Axionic - What's the difference?

axion | axionic |

## In physics|lang=en terms the difference between axion and axionic

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axionic is (physics) of or pertaining to axions.

## As a noun axion

is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force.

## As an adjective axionic is

(physics) of or pertaining to axions.

#### Axion vs Axionlike - What's the difference?

axion | axionlike |

## In physics|lang=en terms the difference between axion and axionlike

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axionlike is (physics) having some characteristics of an axion.

## As a noun axion

is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force.

## As an adjective axionlike is

(physics) having some characteristics of an axion.

axion | saxion |

## In physics|lang=en terms the difference between axion and saxion

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while saxion is (physics) a hypothetical elementary particle, the bosonic superpartner of the axion.

## As nouns the difference between axion and saxion

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while saxion is (physics) a hypothetical elementary particle, the bosonic superpartner of the axion.

axion | axino |

## In physics|lang=en terms the difference between axion and axino

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axino is (physics) a hypothetical elementary particle, the fermionic superpartner of the axion and a possible candidate for the composition of dark matter.

## As nouns the difference between axion and axino

is that axion is (physics) a hypothetical subatomic particle postulated to explain some symmetry problems arising in the strong nuclear force while axino is (physics) a hypothetical elementary particle, the fermionic superpartner of the axion and a possible candidate for the composition of dark matter.