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33-807: QUIET was the result of an international collaboration that had its origins in the CAPMAP , Cosmic Background Imager (CBI) and QUaD collaborations. The collaboration consisted of 7 groups in the United States (the California Institute of Technology , the University of Chicago , Columbia University , the Jet Propulsion Laboratory , the University of Miami , Princeton University and Stanford University ), 4 groups in Europe (the University of Manchester ,

66-452: A positron , each with a mass of 0.511 MeV/ c , can annihilate to yield 1.022 MeV of energy. A proton has a mass of 0.938 GeV/ c . In general, the masses of all hadrons are of the order of 1 GeV/ c , which makes the GeV/ c a convenient unit of mass for particle physics: The atomic mass constant ( m u ), one twelfth of the mass a carbon-12 atom, is close to

99-447: A 91-element 95 GHz array (with 18 GHz bandwidth ) and a 19-element 43 GHz array (with 8 GHz bandwidth) on 1.4 m cassegrain telescopes, mounted on what is currently the CBI platform. It is expected that these will start observing in 2008. The third phase aims to construct four further arrays by around 2010. Two of these will be at 43 GHz, with 91 elements each, and

132-491: A photon are related by E = h ν = h c λ = 4.135   667   696 × 10 − 15 e V / H z × 299 792 458 m / s λ {\displaystyle E=h\nu ={\frac {hc}{\lambda }}={\frac {\mathrm {4.135\ 667\ 696\times 10^{-15}\;eV/Hz} \times \mathrm {299\,792\,458\;m/s} }{\lambda }}} where h

165-413: 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 using

198-686: A unit of inverse particle mass. Outside this system of units, the conversion factors between electronvolt, second, and nanometer are the following: ℏ = 1.054   571   817   646 × 10 − 34   J ⋅ s = 6.582   119   569   509 × 10 − 16   e V ⋅ s . {\displaystyle \hbar =1.054\ 571\ 817\ 646\times 10^{-34}\ \mathrm {J{\cdot }s} =6.582\ 119\ 569\ 509\times 10^{-16}\ \mathrm {eV{\cdot }s} .} The above relations also allow expressing

231-443: A value of one volt , which is 1 J/C , multiplied by the elementary charge e  =  1.602 176 634 × 10  C . Therefore, one electronvolt is equal to 1.602 176 634 × 10  J . The electronvolt (eV) is a unit of energy, but is not an SI unit . It is a commonly used unit of energy within physics, widely used in solid state , atomic , nuclear and particle physics, and high-energy astrophysics . It

264-403: A wavelength of 532 nm (green light) would have an energy of approximately 2.33 eV . Similarly, 1 eV would correspond to an infrared photon of wavelength 1240 nm or frequency 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

297-399: Is a Pythagorean equation . When a relatively high energy is applied to a particle with relatively low rest mass , it can be approximated as E ≃ p {\displaystyle E\simeq p} in high-energy physics such that an applied energy with expressed in the unit eV conveniently results in a numerically approximately equivalent change of momentum when expressed with

330-461: Is an SI unit. In the fields of physics in which the electronvolt is used, other quantities are typically measured using units derived from the electronvolt as a product with fundamental constants of importance in the theory are often used. By mass–energy equivalence , the electronvolt corresponds to 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/ c , where c

363-436: Is commonly used with SI prefixes milli- (10 ), kilo- (10 ), mega- (10 ), giga- (10 ), tera- (10 ), peta- (10 ) or exa- (10 ), the respective symbols being meV, keV, MeV, GeV, TeV, PeV and EeV. The SI unit of energy is the joule (J). In some older documents, and in the name Bevatron , the symbol BeV is used, where the B stands for billion . The symbol BeV is therefore equivalent to GeV , though neither

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396-785: Is convenient to use the electronvolt to express temperature. The electronvolt is divided by the Boltzmann constant to convert to the Kelvin scale : 1 e V / k B = 1.602   176   634 × 10 − 19  J 1.380   649 × 10 − 23  J/K = 11   604.518   12  K , {\displaystyle {1\,\mathrm {eV} /k_{\text{B}}}={1.602\ 176\ 634\times 10^{-19}{\text{ J}} \over 1.380\ 649\times 10^{-23}{\text{ J/K}}}=11\ 604.518\ 12{\text{ K}},} where k B

429-441: Is the Boltzmann constant . The k B is assumed when using the electronvolt to express temperature, for example, a typical magnetic confinement fusion plasma is 15 keV (kiloelectronvolt), which is equal to 174 MK (megakelvin). As an approximation: k B T is about 0.025 eV (≈ ⁠ 290 K / 11604 K/eV ⁠ ) at a temperature of 20 °C . The energy E , frequency ν , and wavelength λ of

462-659: Is the Planck constant , c is the speed of light . This reduces to E = 4.135   667   696 × 10 − 15 e V / H z × ν = 1   239.841   98 e V ⋅ n m λ . {\displaystyle {\begin{aligned}E&=4.135\ 667\ 696\times 10^{-15}\;\mathrm {eV/Hz} \times \nu \\[4pt]&={\frac {1\ 239.841\ 98\;\mathrm {eV{\cdot }nm} }{\lambda }}.\end{aligned}}} A photon with

495-901: Is the speed of light in vacuum (from E = mc ). It is common to informally express mass in terms of eV as a unit of mass , effectively using a system of natural units with c set to 1. The kilogram equivalent of 1 eV/ c is: 1 eV / c 2 = ( 1.602   176   634 × 10 − 19 C ) × 1 V ( 299   792   458 m / s ) 2 = 1.782   661   92 × 10 − 36 kg . {\displaystyle 1\;{\text{eV}}/c^{2}={\frac {(1.602\ 176\ 634\times 10^{-19}\,{\text{C}})\times 1\,{\text{V}}}{(299\ 792\ 458\;\mathrm {m/s} )^{2}}}=1.782\ 661\ 92\times 10^{-36}\;{\text{kg}}.} For example, an electron and

528-444: Is the measure of an amount of kinetic energy gained by a single electron accelerating through an electric potential difference of one volt in vacuum . When used as a unit of energy , the numerical value of 1 eV in joules (symbol J) is equal to the numerical value of the charge of an electron in coulombs (symbol C). Under the 2019 revision of the SI , this sets 1 eV equal to

561-595: Is thought that B-modes are formed both from primordial fluctuations due to cosmic inflation , and from gravitational lensing of the CMB. As of 2008, only E-modes have been detected. QUIET aims to detect and characterize the B-modes polarization for the first time, and to provide more accurate measurements of the E-mode polarization. B-modes are thought to be much fainter than E-modes, as they are formed by higher order effects. The ratio of

594-796: The Max-Planck-Institut für Radioastronomie Bonn , the University of Oslo and the University of Oxford ) and one group in Japan ( KEK ; the first time a Japan group has been involved in CMB studies). Other members of the collaboration are from the University of California, Berkeley , the Goddard Space Flight Center and the Center for Astrophysics | Harvard & Smithsonian . QUIET had arrays of detectors at two frequencies: 43  GHz ( Q band ) and 95 GHz ( W band ). It used four telescopes, three of which were purpose-built 2 m ones with

627-410: 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 B meson has a lifetime of 1.530(9)  picoseconds , mean decay length is cτ = 459.7 μm , or a decay width of 4.302(25) × 10  eV . Conversely, the tiny meson mass differences responsible for meson oscillations are often expressed in

660-474: The multipoles of about 40 and 2,500, and will be made in a section of the sky known to have low foreground contamination. The first season reported on power spectra from over 10000 hours of observation at 43 GHz in the multipole range ℓ = 25–475. The E-mode result was consistent with the standard cosmological model . A B-mode spectrum was not detected. The second season paper included 95 GHz data. Power spectra from ℓ = 25 to 975 were used to constrain

693-483: 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. One mole of particles given 1 eV of energy each has approximately 96.5 kJ of energy – this corresponds to

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726-429: The E-mode to B-mode polarization is currently unknown, and the minimum detectable value of this can be used as a measure of the sensitivity of a CMB instrument. For QUIET this value is r=0.009, which corresponds to the energy scale of cosmic inflation being around 10 16 {\displaystyle 10^{16}}   GeV . QUIET's measurements of the CMB's power spectrum were designed to be between

759-412: The altitude, current infrastructure and accessibility, as well as the low humidity of the site, which reduces the contamination of the detected signals by the atmosphere. QUIET measured the polarization of the cosmic microwave background radiation (CMB). This polarization is commonly split into two components: E-modes, which represent the gradient component, and B-modes, which give the curl component. It

792-876: The conversion to MKS system of units can be achieved by: p = 1 GeV / c = ( 1 × 10 9 ) × ( 1.602   176   634 × 10 − 19 C ) × ( 1 V ) 2.99   792   458 × 10 8 m / s = 5.344   286 × 10 − 19 kg ⋅ m / s . {\displaystyle p=1\;{\text{GeV}}/c={\frac {(1\times 10^{9})\times (1.602\ 176\ 634\times 10^{-19}\;{\text{C}})\times (1\;{\text{V}})}{2.99\ 792\ 458\times 10^{8}\;{\text{m}}/{\text{s}}}}=5.344\ 286\times 10^{-19}\;{\text{kg}}{\cdot }{\text{m}}/{\text{s}}.} In particle physics ,

825-479: The exact value 1.602 176 634 × 10  J . Historically, the electronvolt was devised as a standard unit of measure through its usefulness in electrostatic particle accelerator sciences, because a particle with electric charge q gains an energy E = qV after passing through a voltage of V . An electronvolt is the amount of energy gained or lost by a single electron when it moves through an electric potential difference of one volt . Hence, it has

858-404: The mass of a proton. To convert to electronvolt mass-equivalent, use the formula: By dividing a particle's kinetic energy in electronvolts by the fundamental constant c (the speed of light), one can describe the particle's momentum in units of eV/ c . In natural units in which the fundamental velocity constant c is numerically 1, the c may be informally be omitted to express momentum using

891-985: The more convenient inverse picoseconds. Energy in electronvolts is sometimes expressed through the wavelength of light with photons of the same energy: 1 eV h c = 1.602   176   634 × 10 − 19 J ( 2.99   792   458 × 10 11 mm / s ) × ( 6.62   607   015 × 10 − 34 J ⋅ s ) ≈ 806.55439 mm − 1 . {\displaystyle {\frac {1\;{\text{eV}}}{hc}}={\frac {1.602\ 176\ 634\times 10^{-19}\;{\text{J}}}{(2.99\ 792\ 458\times 10^{11}\;{\text{mm}}/{\text{s}})\times (6.62\ 607\ 015\times 10^{-34}\;{\text{J}}{\cdot }{\text{s}})}}\thickapprox 806.55439\;{\text{mm}}^{-1}.} In certain fields, such as plasma physics , it

924-408: The old CBI mount. Cosmic Anisotropy Polarization Mapper CAPMAP is an experiment at Princeton University to measure the polarization of the cosmic microwave background . This physical cosmology -related article is a stub . You can help Misplaced Pages by expanding it . GeV In physics , an electronvolt (symbol eV ), also written electron-volt and electron volt ,

957-409: The other being the 7 m Crawford Hill telescope used for CAPMAP . As a result, it will have angular resolutions between a few arcminutes and several degrees. The detectors are mass-produced coherent correlation polarimeters . The instrument was constructed in three phases. The first phase consisted of a 7-element 95 GHz array to demonstrate the technology. The second phase aims to mount

990-630: The other two will be at 95 GHz, with 397 elements each. These will then be mounted on three 2 m dishes on the CBI platform and the 7 m telescope. The instrument is located at a height of 5,080 m at Llano de Chajnantor Observatory in the Chilean Andes . The site is owned by the Chilean government, and is leased to the Atacama Large Millimeter Array . The site was selected due to

1023-619: The tensor-to-scalar ratio. As of March 2011, the QUIET team described the status Observations were made from October 2008 through May 2009 using a 19-element 40 GHz instrument coupled to a 1.4 meter telescope located at the Llano de Chajnantor Observatory in Chile. Observations with a 91-element 90 GHz instrument on the same telescope finished in December 2010. The QUIET instrument has been dismantled from

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1056-441: The unit electronvolt. The energy–momentum relation E 2 = p 2 c 2 + m 0 2 c 4 {\displaystyle E^{2}=p^{2}c^{2}+m_{0}^{2}c^{4}} in natural units (with c = 1 {\displaystyle c=1} ) E 2 = p 2 + m 0 2 {\displaystyle E^{2}=p^{2}+m_{0}^{2}}

1089-404: The unit eV/ c . The dimension of momentum is T L M . The dimension of energy is T L M . Dividing a unit of energy (such as eV) by a fundamental constant (such as the speed of light) that has the dimension of velocity ( T L ) facilitates the required conversion for using a unit of energy to quantify momentum. For example, if the momentum p of an electron is 1 GeV/ c , then

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