orion helium ion microscope
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Carl Zeiss SMT AG
Orion Helium IonMicroscope
Carl Zeiss SMT, ALIS Business Unit
December 3, 2007
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Carl Zeiss SMT AG
Orion Helium Ion Microscope
Ions: He+Current: 0.1 to 20 pAEnergy: 5 to 45 keVDetectors: ET & MCPStage:
5 Axis, 50x50x15 mm X,Y & Z45° Tilt, 360° rotation
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Carl Zeiss SMT AG
Helium Ion Source AdvantagesHelium Ion Source Advantages
••High Brightness:High Brightness:> 3.4x10> 3.4x1099 A/(cm2A/(cm2 srsr))
••Small Virtual Source SizeSmall Virtual Source Size(Sub(Sub--Angstrom)Angstrom)
••Low energy spreadLow energy spread(~1/2(~1/2 eVeV))
••Negligible diffraction effectsNegligible diffraction effectsdue to smalldue to small DeBroglieDeBrogliewavelength of He ionwavelength of He ion
••Ultimate Spot size:Ultimate Spot size:dd5050 = 1/4 nm= 1/4 nm
••Long Source Lifetime andLong Source Lifetime andStabilityStability
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Carl Zeiss SMT AG
Interaction Volume (TRIM and Casino Software)
1 keV e-beam into Silicon
Image suffers from large interactionvolume at the surface. Many SE’sgenerated from recoils (green andblue).
Image suffers from large interactionvolume at the surface. Many SE’s arereally SE2.
Beam is well collimated beyond theSE escape depth. Recoil contributionis negligible.
Silicon
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Secondary Electrons:• Provides true surface information• High yield, varies greatly with material
…ranges from ~2 to ~8• Yield varies with topography
…varies as sec (α)• Energy ~ 5 eV
Beam Sample Interaction
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Carl Zeiss SMT AG
Scattered Helium:• Provides material information.• Scatter yield varies with Z2 of the target• Scatter energy varies with mass of the
target atoms (akin to RBS)
Beam Sample Interaction
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Imaging Low Z Materials
• Carbon Nanotube sample
300nm FOV
• Reduced broadeningeffect due to greatersurface sensitivity
• Good surface information
• Smaller sample interactionvolume than electronbeam reducestransparency
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Carl Zeiss SMT AG
Unique Topographic Sensitivity
• Chrome on Quartz Sample
• Intricate grain structure andedge detail
• Shows charge neutralizationon insulating sample usingelectron flood gun
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Carl Zeiss SMT AG
High resolution imaging
• Au on C sample
• Edge rise measurementmethodology used todetermine probe size.
• Area selected for analysisoutlined in red
• Result: Probe size
•0.6 nm (±0.3 nm)
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Carl Zeiss SMT AG
Reduced Charging Artifacts
• Benthic Foraminifera Sample,comprised mostly of CalciumCarbonate
• Backscattered Ion imageshows no signs of charging oninsulating materials.
• Electron flood gun controlscharging on insulatingmaterials when imaging in SEMode
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Carl Zeiss SMT AG
Potential for Backscattered Helium Analysis
• Energy filtered backscattered ion analysis under development
• High lateral resolution elemental analysis, perhaps as good as 5nm.
• Excellent depth resolution. Very surface sensitive at lower energies.
• High sensitivity to low Z materials.
• Minimal sample preparation – no lamella formation needed.
• Insensitive to sample charging – electron floodgun.
• Minimal sample damage – helium ions are very light.
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20
06
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Carl Zeiss SMT AG
Orion Helium Ion Microscope
• World’s first and onlycommercially availableHe Ion Microscope
• Resolution of 0.6nm insecondary electronimaging mode (with planto reach 0.25nm)
• Unique sampleinteraction physics
• Superior chargecompensation
• Potential to analyzebackscattered ions forhigh lateral resolutionelemental analysis