Superconducting Magnet

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Information about Superconducting Magnet

Superconducting magnets are electromagnets that are built using superconducting coils.

Construction

Schematic of a 20 tesla superconducting magnet

Composition

Coil windings

The coil windings of a superconducting magnet are made of wires of type II superconductors (e.g.niobium-titanium).

Coil

The coil itself is made of tiny filaments (about 20 micrometers thick) of a type II superconductor in a copper matix. The copper is needed for adding mechanical stability, and thermal stability in case the temperature rises above T_c or the current rises above I_c at which point superconductivity is lost. These filaments need to be this small because in this type of superconductor the current only flows skin-deep. The coil must be carefully designed to withstand (or counteract) magnetic pressure and Lorentz forces that could otherwise cause wire fracture or crushing of insulation between adjacent turns.

Cooling

Liquid helium is used as a coolant for superconducting materials with critical temperatures around 4.2 K. Liquid nitrogen is used for higher critical temperatures, or (being significantly cheaper) to cool a jacket around the helium.

Materials

The superconducting portions of most such magnets are composed of niobium-titanium. This material has critical temperature of 10 kelvins and remains in this state until about 15 teslas. More expensive magnets can be made of niobium-tin (Nb₃Sn). These have a T_c of 18 kelvins. When operating at 4.2 kelvins they are able to withstand a much higher magnetic field intensity, up to 25 to 30 teslas. Unfortunately, it is far more difficult to make the required filaments from this material. This is why sometimes a combination of Nb₃Sn for the high field sections and Nb₃Ti for the lower field sections is used. High temperature superconductors (BSCCO or YBCO) may be used for high-field inserts when magnetic fields are required which are higher than Nb₃Sn can manage. BSCCO, YBCO or magnesium diboride may also be used for current leads, conducting high currents from room temperature into the cold magnet without an accompanying large heat leak.

Use

Superconducting magnets have a number of advantages over resistive electromagnets. The field is generally more stable, resulting in less noisy measurements. They can be smaller, allowing more freedom in the configuration of the rest of the device (such as a cryostat), and consume much less power - in fact, power consumption is negligible in the steady field state. Higher fields, however can be achieved with cooled resistive and hybrid magnets, as the superconducting coils will enter the normal (non-superconducting) state (see quench, below) at high fields.

Magnet quench

A quench occurs when part of the superconducting coil enters the normal state. This can be because the field inside the magnet is too great, the rate of change of field is too great (causing eddy currents and resultant heating in the copper support matrix), or a combination of the two. More rarely a defect in the magnet can cause a quench. When this happens, that particular spot is subject to rapid joule heating, which raises the temperature of the surrounding regions. This pushes these into the normal state as well, which leads to more heating. The entire magnet rapidly (in less than a second) becomes normal. This is accompanied by a loud bang and rapid boil-off of the cryogenic fluid. Permanent damage to the magnet is rare, but components can be damaged by localised heating or large mechanical forces.

Niobium-titanium (NbTi) is an alloy of niobium and titanium, used industrially as a type II superconductor wire for superconducting magnets.

It can not withstand as high magnetic field intensity as the more expensive niobium-tin, but for most applications it is
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Filament may refer to:

In physics and electrical engineering:

Electrical filament
Current filament
Filament propagation, diffractionless propagation of a light beam

In astronomy:

Galaxy filament

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1 micrometre =
SI units
010⁻⁶ m 010⁻³ mm
US customary / Imperial units
010⁻⁶ ft 010⁻⁶ in

A micrometre (American spelling: micrometer; symbol µm
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2, 1
(mildly basic oxide)
Electronegativity 1.90 (Pauling scale)
Ionization energies
(more) 1st: 745.5 kJmol⁻¹
2nd: 1957.9 kJmol⁻¹
3rd: 3666 kJmol⁻¹

Atomic radius 135 pm
Atomic radius (calc.
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Filament may refer to:

In physics and electrical engineering:

Electrical filament
Current filament
Filament propagation, diffractionless propagation of a light beam

In astronomy:

Galaxy filament

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Magnetic Pressure is an energy density associated with the magnetic field. It is identical to any other physical pressure except that it is carried by the magnetic field rather than (in the case of gas) kinetic energy of the gas molecules.
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Lorentz force is the force exerted on a charged particle in an electromagnetic field. The particle will experience a force due to electric field of qE, and due to the magnetic field qv × B.
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Helium (He) is a colorless, odorless, tasteless, non-toxic, inert monatomic chemical element that heads the noble gas series in the periodic table and whose atomic number is 2.
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A heat pump is a machine or device that moves heat from one location (the 'source') to another location (the 'sink'), using work. Most heat pump technology moves heat from a low temperature heat source to a higher temperature heat sink.
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3, 5, 4, 2
(strongly acidic oxide)
Electronegativity 3.04 (Pauling scale)
Ionization energies
(more) 1st: 1402.3 kJmol⁻¹
2nd: 2856 kJmol⁻¹
3rd: 4578.1 kJmol⁻¹

Atomic radius 65 pm
Atomic radius (calc.
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The kelvin (symbol: K) is a unit increment of temperature and is one of the seven SI base units. The Kelvin scale is a thermodynamic (absolute) temperature scale where absolute zero — the coldest possible temperature — is zero kelvins
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tesla (symbol T) is the SI derived unit of magnetic field. The tesla is equal to one weber per square metre and was defined in 1960^[1] in honor of inventor, scientist and electrical engineer Nikola Tesla.
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Niobium-tin (Nb₃Sn) is a metallic chemical compound of niobium (Nb) and tin (Sn), used industrially as a type II superconductor. It is more expensive than niobium-titanium (NbTi), but can withstand magnetic field intensity values up to 30 T, whereas NbTi can
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In physics, the field strength of a field is the magnitude of its vector value.

In theoretical physics, the field strength is another name for the curvature form. For the electromagnetic field, the curvature form is an antisymmetric matrix whose elements are the electric
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Magnesium diboride (MgB₂) is an inexpensive and simple superconductor. Its superconductivity was announced in the journal Nature in March 2001 [1] .
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Electrical resistance is a measure of the degree to which an object opposes an electric current through it. The SI unit of electrical resistance is the ohm. Its reciprocal quantity is electrical conductance measured in siemens.
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A Cryostat (cryo=cold and stat=stable) is a vessel, similar in construction to a vacuum flask, or dewar used to maintain cold cryogenic temperatures.

Three common types of cryostat exist, the MRI magnet type, the research magnet type and a biological microtome type.
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Joule heating is the process by which the passage of an electric current through a conductor releases heat. It was first studied by James Prescott Joule in 1841. Joule immersed a length of wire in a fixed mass of water and measured the temperature rise due to a known current
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A Fault Current Limiter (FCL) is a device which limits the prospective fault current when a fault occurs. The term is generally applied to superconducting devices, whereas non-superconducting devices (such as simple inductors or variable resistors) are typically termed Fault
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