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The magnetic fields from the current loops 2404 , such as magnetic fields of about 500 Oe , change the magnetization in specific locations in data storage layer 2412to createmagnetic domains
the polarizing magnetic field as illustrated in FIGS(passive) caused bythe magnetic domain
physicist Francis Bitter(passive) were discovered byMagnetic domains
Paired electrons spincreatingmagnetic domains
Weiss(passive) were discovered byMagnetic Domains
when the read / write head applies energy to a bit location to align some ( not all ) of the particles to reflect either a zero or a one(passive) are createdMagnetic domains
Billions of atoms within molecular arrangements that allow some electron spins to line up with each othercreatemagnetic domains
Certain materials are very good at getting many electrons all spinning in the same directionscreatingmagnetic domains
Aggregations of individual atomic and molecular dipolar magnetic momentscreatemagnetic domains
surface irradiation damages of pulse lasers(passive) created bymagnetic domains
The use of a transverse easy axispreventsmagnetic domains
that when the atoms of iron , nickel and cobalt combine their electrons of the same spins pair upcreatingmagnetic domains
lithography(passive) artificially created bymagnetic domains
inconsistencies in material and other factors like crystaline structurecreatemagnetic domains
magnetic means only(passive) created bymagnetic domains
circular Co islands covering the Co / Pt(passive) caused bymagnetic domains
TAP and the magneto - optical effect due to TAP(passive) painted bythe magnetic domain
the abilitycreatingmagnetic domains
these physically positioned particles(passive) created bymagnetic domains
high demagnetization fields within the co - based alloy(passive) is caused bymagnetic domains
the atoms of iron ... attractingcreatinga magnetic domain
The uniform motion of the electrons about atoms in this areacreatesa magnetic domain
External magnetic fieldscan causethe magnetic domain
magnetic forcescreatingmagnetic domains
a north and south polecreatesa magnetic domain
The motion of charged particlescreatesa magnetic domain
the magnetic fields of atoms(passive) is caused byA magnetic domain
induction of electromagnetic waves(passive) caused bymagnetic domains
variations in the field pattern of the record carrier(passive) caused bythe magnetic domain
unpaired electrons spinning in the same directioncreatelines of magnetic domain
naturally occurring geopathic energy(passive) created bythe magnetic domain
The hard biaspreventsa magnetic domain
component deterioration(passive) may be caused bythe magnetic domain
changes in stress or heat during contact(passive) caused bythe magnetic domain
the deformation and damage of structures(passive) caused bythe magnetic domain
cm2resultingin magnetic domain
at an end of the MTJ cell 101causedat an end of the MTJ cell 101
the destruction of the local magnetizationcausingthe destruction of the local magnetization
an object to behave like a magnetcan causean object to behave like a magnet
or a magnetization direction is reversed in the magnetic yokeare createdor a magnetization direction is reversed in the magnetic yoke
to spatial variation of the magnetization in the F and the staggered magnetization in the AF in the plane parallel to the interfaceleadsto spatial variation of the magnetization in the F and the staggered magnetization in the AF in the plane parallel to the interface
in the magnetoresistive film , a shunt film for applying a magnetic field for prescribing the magnetic driving range of the magnetoresistive film in a specific direction , and a soft magnetic filmcreatedin the magnetoresistive film , a shunt film for applying a magnetic field for prescribing the magnetic driving range of the magnetoresistive film in a specific direction , and a soft magnetic film
problemsmay causeproblems
from their atomic structures and electron spinsresultingfrom their atomic structures and electron spins
from heading ratesoriginatefrom heading rates
into an energetically favorable configurationwill setinto an energetically favorable configuration
magnetic fieldsdo ... createmagnetic fields
in changes of maximum force valueresultingin changes of maximum force value
from forming in the MR elements ... resulting in noise free operationare preventedfrom forming in the MR elements ... resulting in noise free operation
hysteresis when the current reverse directioncausehysteresis when the current reverse direction
the internal dipoles of the object to aligncausesthe internal dipoles of the object to align
to power losses through interaction with the fields and currents involved in normal device operationcan leadto power losses through interaction with the fields and currents involved in normal device operation
eddy current losses(passive) influenced byeddy current losses
from the provision of the nonmagnetic intermediate layersresultingfrom the provision of the nonmagnetic intermediate layers
to reversal and saturation of the filmeventually leadingto reversal and saturation of the film
to form an ‘ m ’ shapedesignedto form an ‘ m ’ shape
which is stable and neither expands nor collapsesis createdwhich is stable and neither expands nor collapses
one another at interfaces of spintronic componentsinfluenceone another at interfaces of spintronic components
from the applied alternating magnetic fieldresultingfrom the applied alternating magnetic field
inversion of magnetic domainscausinginversion of magnetic domains
or orient a direction of a magnetic fieldto setor orient a direction of a magnetic field
to operate at extreme temperaturesdesignedto operate at extreme temperatures
from the trigonal symmetry of the crystaloriginatingfrom the trigonal symmetry of the crystal
to l ... DTSto leadto l ... DTS
magnetic behavior answer the bellwork questioncausemagnetic behavior answer the bellwork question
from movement of the encoded tracks of a magnetic stripe card past the reader head used in the conventional card reader devicesresultingfrom movement of the encoded tracks of a magnetic stripe card past the reader head used in the conventional card reader devices
in information being permanently corruptedresultingin information being permanently corrupted
noise from being produced in the soft magnetic underlayercausingnoise from being produced in the soft magnetic underlayer
magnetic signals(passive) caused bymagnetic signals
up in a corner of the stripesetsup in a corner of the stripe
to a spin - flip process , which can reverse the spin orientations of the singlet Cooper pair propagating through the magnetic domain regioncan leadto a spin - flip process , which can reverse the spin orientations of the singlet Cooper pair propagating through the magnetic domain region
to a spin - flip scattering process , which reverses the spin orientations of the singlet Cooper pair and simultaneously changes the sign of the corresponding electronic momentumcan leadto a spin - flip scattering process , which reverses the spin orientations of the singlet Cooper pair and simultaneously changes the sign of the corresponding electronic momentum
at the 180 ° magnetic wall (= main magnetic domaincreatedat the 180 ° magnetic wall (= main magnetic domain
to high hysteresis lossesleadingto high hysteresis losses
of non - aggregated Co ions in Zncould be composedof non - aggregated Co ions in Zn
by the degradation of visibility based on the SANS at domain wallsresultedby the degradation of visibility based on the SANS at domain walls