Electronvolt(Redirected from Megaelectronvolt)
This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these template messages)(Learn how and when to remove this template message)
Historically, the electronvolt was devised as a standard unit of measure through its usefulness in electrostatic particle accelerator sciences, because a particle with charge q has an energy E = qV after passing through the potential V; if q is quoted in integer units of the elementary charge and the terminal bias in volts, one gets an energy in eV.
Like the elementary charge on which it is based, it is not an independent quantity but is equal to 1 J/ √. It is a common unit of energy within physics, widely used in solid state, atomic, nuclear, and particle physics. It is commonly used with the metric prefixes milli-, kilo-, mega-, giga-, tera-, peta- or exa- (meV, keV, MeV, GeV, TeV, PeV and EeV respectively). In some older documents, and in the name Bevatron, the symbol BeV is used, which stands for billion (109) electronvolts; it is equivalent to the GeV.
|Measurement||Unit||SI value of unit|
|Energy||eV||1766208(98)×10−19 J 1.602|
|Mass||eV/c2||662×10−36 kg 1.782|
|Momentum||eV/c||286×10−28 kg⋅m/s 5.344|
|Temperature||eV/kB||4505(20)×104 K 1.160|
|Time||ħ/eV||119×10−16 s 6.582|
|Distance||ħc/eV||27×10−7 m 1.973|
An electronvolt is the amount of energy gained (or lost) by the charge of a single electron moving across an electric potential difference of one volt. Hence, it has a value of one volt, , multiplied by the electron's 1 J/Celementary charge e, 1766208(98)×10−19 C. 1.602 Therefore, one electronvolt is equal to 1766208(98)×10−19 J. 1.602 The electronvolt is not an SI unit, and its definition is empirical (unlike the litre, the light-year and other such non-SI units), where its value in SI units must be obtained experimentally.
By mass–energy equivalence, the electronvolt is also a unit of mass. It is common in particle physics, where units of mass and energy are often interchanged, to express mass in units of eV/c2, where c is the speed of light in vacuum (from E = mc2). It is common to simply express mass in terms of "eV" as a unit of mass, effectively using a system of natural units with c set to 1. The mass equivalent of is 1 eV/c2
For example, an electron and a positron, each with a mass of , can 0.511 MeV/c2annihilate to yield of energy. The 1.022 MeVproton has a mass of . In general, the masses of all 0.938 GeV/c2hadrons are of the order of , which makes the GeV (gigaelectronvolt) a convenient unit of mass for particle physics: 1 GeV/c2
- = 1 GeV/c2×10−27 kg. 1.783
- 1 u = = 931.4941 MeV/c24941 GeV/c2. 0.931
In high-energy physics, the electronvolt is often used as a unit of momentum. A potential difference of 1 volt causes an electron to gain an amount of energy (i.e., ). This gives rise to usage of eV (and keV, MeV, GeV or TeV) as units of momentum, for the energy supplied results in acceleration of the particle. 1 eV
The dimensions of momentum units are LMT−1. The dimensions of energy units are L2MT−2. Then, dividing the units of energy (such as eV) by a fundamental constant that has units of velocity (LT−1), facilitates the required conversion of using energy units to describe momentum. In the field of high-energy particle physics, the fundamental velocity unit is the speed of light in vacuum c.
The fundamental velocity constant c is often dropped from the units of momentum by way of defining units of length such that the value of c is unity. For example, if the momentum p of an electron is said to be , then the conversion to MKS can be achieved by: 1 GeV
In particle physics, a system of "natural units" in which the speed of light in vacuum c and the reduced Planck constant ħ are dimensionless and equal to unity is widely used: c = ħ = 1. In these units, both distances and times are expressed in inverse energy units (while energy and mass are expressed in the same units, see mass–energy equivalence). In particular, particle scattering lengths are often presented in units of inverse particle masses.
Outside this system of units, the conversion factors between electronvolt, second, and nanometer are the following:
The above relations also allow expressing the mean lifetime τ of an unstable particle (in seconds) in terms of its decay width Γ (in eV) via Γ = ħ/τ. For example, the B0 meson has a lifetime of 1.530(9) picoseconds, mean decay length is cτ = 459.7 μm, or a decay width of ±25)×10−4 eV. (4.302
Conversely, the tiny meson mass differences responsible for meson oscillations are often expressed in the more convenient inverse picoseconds.
Energy in electronvolts is sometimes expressed through the wavelength of light with photons of the same energy: 1 eV = 8065.544005(49) cm−1.
For example, a typical magnetic confinement fusion plasma is , or 170 MK. 15 keV
As an approximation: kBT is about (≈ 0.025 eV290 K/) at a temperature of . 20 °C
The energy E, frequency v, and wavelength λ of a photon are related by
A photon with a wavelength of (green light) would have an energy of approximately 532 nm. Similarly, 2.33 eV would correspond to an infrared photon of wavelength 1 eV or frequency 1240 nm. 241.8 THz
In a low-energy nuclear scattering experiment, it is conventional to refer to the nuclear recoil energy in units of eVr, keVr, etc. This distinguishes the nuclear recoil energy from the "electron equivalent" recoil energy (eVee, keVee, etc.) measured by scintillation light. For example, the yield of a phototube is measured in phe/keVee (photoelectrons per keV electron-equivalent energy). The relationship between eV, eVr, and eVee depends on the medium the scattering takes place in, and must be established empirically for each material.
This list (which may have dates, numbers, etc.) may be better in a sortable table format. (May 2017)
- ×1032 eV: total energy released from a 20 5.25kt nuclear fission device
- ×1028 eV: the 1.22Planck energy
- 10 YeV (×1025 eV): the approximate 1grand unification energy
- ~624 EeV (×1020 eV): energy consumed by a single 100-watt light bulb in one second ( 6.24 = 100 W ≈ 100 J/s×1020 eV/s) 6.24
- 300 EeV (×1020 eV = ~ 3J): 50  the so-called Oh-My-God particle (the most energetic cosmic ray particle ever observed)
- : two petaelectronvolts, the most high-energetic neutrino detected by the 2 PeVIceCube neutrino telescope in Antarctica
- : the designed proton collision energy at the 14 TeVLarge Hadron Collider (operated at about half of this energy since 30 March 2010, reached 13 TeV in May 2015)
- : a trillion electronvolts, or 1 TeV×10−7 J, about the kinetic energy of a flying 1.602mosquito
- 125.1±0.2 GeV: the energy corresponding to the mass of the Higgs boson, as measured by two separate detectors at the LHC to a certainty better than 5 sigma
- : the average energy released in fission of one 210 MeVPu-239 atom
- : the average energy released in 200 MeVnuclear fission of one U-235 atom
- : the average energy released in the 17.6 MeVfusion of deuterium and tritium to form He-4; this is per kilogram of product produced 0.41 PJ
- ( 1 MeV×10−13 J): about twice the 1.602rest energy of an electron
- : the energy required to 13.6 eVionize atomic hydrogen; molecular bond energies are on the order of to 1 eV per bond 10 eV
- to 1.6 eV: the 3.4 eVphoton energy of visible light
- : the energy EG required to break a 1.1 eVcovalent bond in silicon
- : the energy EG required to break a 720 meVcovalent bond in germanium
- : the 25 meVthermal energy kBT at room temperature; one air molecule has an average kinetic energy 38 meV
- : the thermal energy kBT of the 230 µeVcosmic microwave background
One mole of particles given 1 eV of energy has approximately 96.5 kJ of energy – this corresponds to the Faraday constant (F ≈ 485 C mol−1) where the energy in joules of N moles of particles each with energy X eV is X·F·N. 96
Notes and referencesEdit
- IUPAC Gold Book Archived 2009-01-03 at the Wayback Machine., p. 75
- SI brochure, Sec. 4.1 Table 7 Archived July 16, 2012, at the Wayback Machine.
- "CODATA Value: elementary charge". The NIST Reference on Constants, Units, and Uncertainty. US National Institute of Standards and Technology. June 2015. Retrieved 2015-09-22.
2014 CODATA recommended values
- "CODATA Value: electron volt". The NIST Reference on Constants, Units, and Uncertainty. US National Institute of Standards and Technology. June 2015. Retrieved 2015-09-22.
2014 CODATA recommended values
- "Definitions of the SI units: Non-SI units". The NIST Reference on Constants, Units, and Uncertainty. National Institute of Standards and Technology. Retrieved 2018-07-01.
- Barrow, J. D. "Natural Units Before Planck." Quarterly Journal of the Royal Astronomical Society 24 (1983): 24.
- "Units in particle physics". Associate Teacher Institute Toolkit. Fermilab. 22 March 2002. Archived from the original on 14 May 2011. Retrieved 13 February 2011.
- "Special Relativity". Virtual Visitor Center. SLAC. 15 June 2009. Retrieved 13 February 2011.
- "CODATA Value: Planck constant in eV s". Archived from the original on 22 January 2015. Retrieved 30 March 2015.
- What is Light? Archived December 5, 2013, at the Wayback Machine. – UC Davis lecture slides
- Elert, Glenn. "Electromagnetic Spectrum, The Physics Hypertextbook". hypertextbook.com. Archived from the original on 2016-07-29. Retrieved 2016-07-30.
- "Definition of frequency bands on". Vlf.it. Archived from the original on 2010-04-30. Retrieved 2010-10-16.
- Open Questions in Physics. Archived 2014-08-08 at the Wayback Machine. German Electron-Synchrotron. A Research Centre of the Helmholtz Association. Updated March 2006 by JCB. Original by John Baez.
- "A growing astrophysical neutrino signal in IceCube now features a 2-PeV neutrino". Archived from the original on 2015-03-19.
- Glossary Archived 2014-09-15 at the Wayback Machine. - CMS Collaboration, CERN
- ATLAS; CMS (26 March 2015). "Combined Measurement of the Higgs Boson Mass in pp Collisions at √s=7 and 8 TeV with the ATLAS and CMS Experiments". Physical Review Letters. 114 (19): 191803. arXiv:1503.07589. Bibcode:2015PhRvL.114s1803A. doi:10.1103/PhysRevLett.114.191803. PMID 26024162.