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Transcript of AN INTRODUCTION TO SPINTRONICS BY: SAMIR KUMAR 10M601 M.TECH 1 ST YEAR Center for Materials Science...
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AN INTRODUCTION TO SPINTRONICS
BY: SAMIR KUMAR10M601
M.TECH 1ST YEARCenter for Materials Science and Engineering
NATIONAL INSTITUTE OF TECHNOLOGYHAMIRPUR
Centre for Materials Science and Engineering
रा�स्ट्री�य प्रद्योगि�की सं�स्था�न हमी�रापु�रा
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Outline
IntroductionWhat do we mean by spin of an electronWhy SpintronicsSpintronic EffectsPhases in Spintronics Materials of SpintronicsConclusionsAcknowledgments
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Electron has :Mass
ChargeSpin
INTRODUCTION
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What is spin?
• One can picture an electron as a charged sphere rotating about an axis.
• The rotating charged sphere will produce magnetic moment in that can be either up or down depending upon whether the rotation is anticlockwise or clockwise
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Electron Spin is a Quantum phenomenon•A spinning sphere of charge can produce a magnetic moment.
•Considering Electrons size to be of the order of 10-12 m at that size a high spin rate of some 1032 radian/s would be required to match the observed angular momentum that is velocity of the order of 1020 m/s.
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sz mS
down)(spin
up)(spin
21
21
/
/
s
s
m
m
The component Sz along z axis:
Electron Spin
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• Conventional electronic devices ignore the spin property.
• Random spins have no effect on current flow.
SPINTRONICS = SPIN + ELECTRONICS
What is Spintronics?
Spintronics=spin based electronics
Spintronic devices create spin-polarized currents and use the spin to control current flow.
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Moore’s LawMoore’s Law states that the number of transistors on a silicon chip will roughly double every eighteen months
Why Spintronics?
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Can Moore’s law keep going?Power dissipation=greatest obstacle for Moore’s law! Modern processor chips consume ~100W of power of which
about 20% is wasted in leakage through the transistor gates.
The traditional means of coping with increased power per generation has been to scale down the operating voltage of
the chip but voltages are reaching limits due to thermal fluctuation effects.
0
100
200
300
400
500
0.5 0.35 0.25 0.18 0.13 0.1 0.07 0.05
Active Power
Passive Power (Device Leakage)
350 250 180 130 100 70 50
500
500
400
300
200
100
0
Technology node (nm)
Po
we
r d
ensi
ty (
W/c
m)
2
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Advantages of Spintronics Devices
•Non-volatile memory •Performance improves with smaller devices
•Low power consumption •Spintronics does not require unique and specialised semiconductors
•Dissipation less transmission •Switching time is very less•Compared to normal RAM chips, spintronic RAM chips will:
– increase storage densities by a factor of three– have faster switching and rewritability rates smaller•Promises a greater integration between the logic and storage devices
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Spintronics Effects
GMR (Giant Magneto-Resistance)
FM-Metal-FM
MTJ (Magnetic Tunnel Junction)
FM-Insulator-FM
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Giant Magneto-Resistance (GMR)The 2007 Nobel prize for physics was award jointly to Fert and Grunberg for
giant magnetoresistance (GMR) discovered independently in 1988.
This discovery led to development of the “spin valve” and later the tunnel magnetoresistance
effect (TMR) which found application in advanced computer hard drives, and more recently
magneto-resistive random access memory (MRAM) (which is non-volatile).
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Giant Magneto-Resistance (GMR) Discovered in 1988 France
A multilayer GMR consists of two or more ferromagnetic layers separated by a very thin (about 1 nm) non-ferromagnetic spacer (e.g. Fe/Cr/Fe)
When the magnetization of the two outside layers is aligned, resistance is low
Conversely when magnetization vectors are antiparallel, high R Condition for GMR: layer thickness
~ nm
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Parallel Current GMR
Current runs parallel between the ferromagnetic layers
Most commonly used in magnetic read heads
Has shown 200% resistance difference between zero point and antiparallel states
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Perpendicular Current GMREasier to understand theoretically,
think of one FM layer as spin polarizer and other as detector
Has shown 70% resistance difference between zero point and antiparallel states
Basis for Tunneling MagnetoResistance
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Concept of the Giant Magnetoresistance (GMR)1) Iron layers with opposite magnetizations : spin up
and spindown are stopped → no current (actually small current only)
2) If a magnetic field aligns the magnetizations: spins go through
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Applications of GMR
It is used in Hard Drives
0.5 MB← 1975
1997 (before GMR) : 1 Gbit/in2 , 2007 : GMR heads ~ 300 Gbit/in2
100 GB hard disc (Toshiba), →
soon in portable digital audio-players
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Magnetic Tunnel Junction
• A magnetic tunnel junction (MTJ) consists of two layers of magnetic metal, such as cobalt-iron, separated by an ultrathin layer of insulator.
• Tunnel Magnetoresistive effect combines the two spin channels in the ferromagnetic materials and the quantum tunnel effect
Ferromagneticelectrodes
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Magnetic Tunnel JunctionDevic
e
( ) ( )
( ) ( )
I P I APTMR
I P I AP
( ) ( )
( ) ( )
G P G APTMR
G P G AP
Parallel alignment (P) Antiparallel alignment (AP)
Ferromagnetic leads L & R Insulating spacer S
Measured: tunneling current I, conductance G
Tunneling magneto-resistance (TMR)
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Applications
• The read heads of modern hard disk drives.
• Is also the basis of MRAM, a new type of non-volatile memory.
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Magnetoresistive Random Access MemoryMRAM uses magnetic storage elements
instead of electric used in conventional RAM
Tunnel junctions are used to read the information stored in Magnetoresistive Random Access Memory, typically a ”0” for zero point magnetization state and “1” for antiparallel state
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MRAM combines the best characteristics of Flash, SRAM and DRAM
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Phases in Spintronics
SPIN INJECTION
SPIN MANIPULATION
SPIN DETECTION
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Spin injection
It is the transport or creating a non-equilibrium spin population across interface
Using a ferromagnetic electrode
Effective fields caused by spin-orbit interaction.
Tunnel barrier could be used to effectively inject spins into a semiconductor
Tunneling spin injection via Schottky barrier
By “hot” electrons
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Spin ManipulationTo control electron spin to realize desired
physical operation efficiently by means of external fields
Mechanism for spin transfer implies a spin filtering process.
Spin filtering means that incoming electrons with spin components perpendicular to the magnetic moment in the ferromagnet are being filtered out.
Spin-polarized current can transfer the angular momentum from carriers to a ferromagnet where it can change the direction of magnetization This effect is equivalent to a spin transfer torque.
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Spin Transfer Torque
The spin of the conduction electron is rotated by its interaction with the magnetization.
This implies the magnetization exerts a torque on the spin. By Conservation of angular momentum, the spin exerts an equal and Opposite torque on the magnetization.
2M1M
S
v v
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Spin DetectionTo measure the physical consequences of spin coherent states in Spintronics devices.The injection of non-equilibrium spin either induces voltage or changes resistance corresponding to buildup of the non-equilibrium spin. This voltage can be measured in terms of change in resistance by potentiometric method.
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Spin Detection Technique
An ultrasensitive silicon cantilever with a SmCo magnetic tip positioned 125nm above a silica specimen containing a low density of unpaired electron spins. At points in the specimen where the condition for magnetic resonance is satisfied, the magnetic force exerted by the spin on the tip.
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Materials of Spintronics
• Currently used materials in conventional electronics are usually non-magnetic and only charges are controllable.
• Existing metal-based devices do not amplify signals.
• Whereas semiconductor based spintronic
devices could in principle provide amplification and serve, in general, as multi-functional devices.
• All the available ferromagnetic semiconductor materials that can be used as spin injectors preserve their properties only far below room temperature, because their Curie temperatures (TC) are low.
Problems
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GMR - Giant magnetoresistance - HDD read headsMTJ - Magnetic Tunnel Junction - HDD read heads+MRAMMRAM - Magnetic RAM - nonvolitile memorySTT - Spin Transfer Torque - MRAM+oscillator
Spintronic Research and Applications
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Solution
• Diluted Magnetic Semiconductor or (DMS).
Add Fe or Mn toSi/GaAs
• Half-Metallic Ferromagnets
Fe3O4 magnetite CrO2
Heusler FM• Ni2MnGa• Co2MnAl
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Diluted Magnetic Semiconductor or (DMS)One way to achieve FS is to dope some magnetic impurity in a semiconductor matrix. (Diluted Magnetic Semiconductor )
Semiconductor host atom
Magnetic impurity
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Theoretical predictions
by Dietl, Ohno et al.
Various DMS displays room temperature ferromagnetism!
Curie Temperature — The temperature above which a ferromagnetic material loses its permanent magnetism.
Science 287, 1019 (2000) & PRB 63, 195205 (2001)
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DMS materials I: (Ga,Mn)AsFirst DMS material, discovered in 1996 by
Ohno et al.Curie temperature K at optimal doping
Max TC ~ 110Kx ~ .05
[Ohno et al., APL 69, 363 (1996)]
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DMS materials II: (Ga,Mn)N
First room temperature DMS discovered in 2001
High curie temperature◦Experiment: up to Tc
=800 K
◦Theory: up to Tc =940 K
Highest Tc in Dietl’s prediction
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DMS materials III: Transition metal doped oxide
Room temperature ferromagnetism discovered in Mn doped ZnO in 2001
Material:◦Mn doped ZnO◦Co doped TiO
Reported Tc up to 400K
Hysteresis curve at Room temperature for Mn doped ZnO(Sn)
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Half-Metallic Ferromagnets
Half metals are ferromagnets with only one type of conduction electron, either spin up, ↑, or spin down, ↓The valence band related to one type of these electrons is fully filled and the other is partially filled. So only one type of electrons (either spin up or spin down) can pass through it.
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Half-Metallic Ferromagnets
E.g.:Chromium(IV)
oxideFe3O4 magnetite Heusler alloys
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Future Outlook
High capacity hard drivesMagnetic RAM chipsSpin FET using quantum tunnelingQuantum computers
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LimitationsProblems that all the engineers and scientists may have to overcome are:To devise economic ways to combine ferromagnetic
metals and semiconductors in integrated circuits.
To find an efficient way to inject spin-polarized currents, or spin currents, into a semiconductor.
To create long relaxation time for effective spin
manipulation.
What happens to spin currents at boundaries between different semiconductors?
How long can a spin current retain its polarization in a semiconductor?
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THANK YOU for your kind
attention☺