MICRO AND NANO X-RAY TOMOGRAPHY OF 3D IC STACKS · 2020-01-06 · Rotating Anode Micro Focus High...
Transcript of MICRO AND NANO X-RAY TOMOGRAPHY OF 3D IC STACKS · 2020-01-06 · Rotating Anode Micro Focus High...
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Ehrenfried Zschech1,2, Markus Löffler2, Jürgen Gluch1, M. Jürgen Wolf3
1 Fraunhofer IKTS Dresden, Germany | 2 TU Dresden, DCN, Dresden, Germany | 3 Fraunhofer IZM-ASSID Dresden, Germany | [email protected]
MICRO AND NANO X-RAY TOMOGRAPHY OF 3D IC STACKS
MRS Spring 2016 | Phoenix/AZ, 29 March 2016
Picture: NovaledPicture: Fraunhofer IPMS Picture: GLOBALFOUNDRIES
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3D stacking of chips: Through Silicon Via (TSV) technology
Die Integration Technology using Through Si Vias electrical connection from front
to back (on die or interposer)
Value Proposition Small form factor (in X-Y & Z) Improved Performance Heterogeneous Integration
Typical Implementation Memory-on-Logic Die on (Active) Interposer
~20 um
~100 um
~20 um
DIE 1 : Si Substrate
Backside Insulator
TS
VTS
V
Device
M1
M2
Mn
FC Bump
uBump
ILD
DIE 2 Substrate
DIE 1 BEOL
Device
DIE 2 BEOL
~50 u
m~
100 u
m
~5 um
TSVBRDLF2BF2B
Die 1
Die 2
uBump
PAGE 2
Courtesy: R. Radojcic, Qualcomm
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1nm 10nm 100nm 1µm 10µm 100µm 1mm 10mm 100mm
macromicronano
voxel size
SPM techniques
XRD
scanning
acoustic
microscopy
thermography
macro XCT
sub micro
micro XCT
Characterization techniques – from macro to nano
Nanoanalysis Non-destructive testing
TEM/SEM
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1nm 10nm 100nm 1µm 10µm 100µm 1mm 10mm 100mm
macromicronano
voxel size
SPM techniques
XRD
scanning
acoustic
microscopy
thermography
macro XCT
sub micro
micro XCT
Characterization techniques – from macro to nano
Nanoanalysis Non-destructive testing
TEM/SEM
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1nm 10nm 100nm 1µm 10µm 100µm 1mm 10mm 100mm
macromicronano
voxel size
SPM techniques
XRD
scanning
acoustic
microscopy
thermography
macro XCT
sub micro
micro XCT
Characterization techniques – from macro to nano
Nanoanalysis Non-destructive testing
TEM/SEM
Sub-micron
XCT
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X-ray micro imaging: Principle of conventional radiography
SDD
SOD
DF
UFProjection of the (small) specimen on a (large) screen
d > DF : Resolution is limited by size of the source
DF > 0.6 µm (thin target)
Zeiss/Xradia Versa XCT 520: 0.7 mm resolution
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Sub-micron X-ray tomography for advanced packaging: 3D TSV stacking
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Physical failure analysis for advanced packaging: Combination of multi-scale nondestructive evaluation and destructive techniques: mXCT, nXCT + SEM/FIB/TEM
X-ray computed tomography (XCT): Incomplete Cu TSV filling, variation in
solder flow (AgSn) around the Cu bumps
100 µm
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1nm 10nm 100nm 1µm 10µm 100µm 1mm 10mm 100mm
macromicronano
voxel size
SPM techniques
XRD
scanning
acoustic
microscopy
thermography
macro XCT
sub micro!!
micro XCT
Characterization techniques – from macro to nano
Nano Transmission X-ray Microscopy (TXM) / XCT
Nanoanalysis Non-destructive testing
TEM/SEM
Sub-micron
XCT
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Zeiss/Xradia NanoXCT: Lab based X-ray microscopy
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Rotating Anode
Micro Focus High
Power X-ray Tube
Condensing
Mirror
Object Fresnel
Zone Plate
X-ray
Camera
High-resolution characterization of materials and structures with nano XCT
■ Photon energy 8 keV (Cu target) or 5.4 keV
(Cr target)
■ Full field imaging using Fresnel zone plates
■ 65 µm and 16 µm field of view, respectively
absorption contrast, Zernike phase contrast
■ 1024 × 1024 pixel CCD camera
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Rotating Anode
Micro Focus High
Power X-ray Tube
Condensing
Mirror
Object Fresnel
Zone Plate
X-ray
Camera
50nm resolution with Fresnel zone plate
E. Zschech, W. Yun, G. Schneider,
Appl. Phys. A 92, 423 – 429 (2008)
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Nano XCT requires a preparation that is
non-destructive for the ROI
FIB preparation of a not affected sample (including ROI) for a nano XCT study
Most of the sample preparations require
the removal of an extraordinary large
amount of material in front of the ROI
Solutions
• Laser ablation + FIB
• High beam current FIB or Plasma FIB
• Efficient combination of the two
approaches
• .........
• ( Laser ablation) FIB NanoXCT
3D ROI
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Sample preparation of an array of TSVs
… for X-ray tomography
Nano XCT sample preparation usinglaser ablation
50 x 50 x 150 µm3
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• Tomography of 4μm and 5μm TSVs
X-ray tomography @ TSVs
Courtesy: Zeiss/Xradia
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Multi-chip stack – High-resolution nano-XCT
Tomography of a partially filled Cu TSV
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Multi-chip stack – High-resolution nano XCT
Tomography of a AgSn solder bump
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Nano XCT, sample stage for CT with tilted rotational axis
Condenser
Pinhole
Sample
Wedge Rotation stage
FZP
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X-ray computed laminography study of TSVs
Comparison for equal measurement time
Limited Angle CT CT with tilted rotational axis
Better image quality (contrast)
Less artifacts at the bottom of the TSV
Sven Niese, Peter Krüger, Lay Wai Kong
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single void
Cavity
Position of
the surface
Average over
10 Slices
Nano XCT at TSV sample: < 100nm voids visible
Sven Niese, Peter Krüger, Lay Wai Kong
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Navigation
• 3D characterization methods deliver 3D
coordinates of the ROI
• For further FIB preparation and ROI
imaging with TEM/SEM a precise, reliable
and effective coordinate and specimen
transfer is necessary
• NanoXCT ( Laser ablation) FIB
SEM/TEM
x
y
z
FIB preparation of a ROI for SEM/TEM study based on navigation data from nano XCT
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SEM image of FIB X-section of Copper TSV after nanoXCT study
1. Nondestructive failure localization: Voids ~ 100 nm size can be localized2. Destructive physical failure analysis: Validation of nano XCT results
M. Baklanov, P. S. Ho, E. Zschech, “Advanced Interconnects for ULSI Technology”
(Eds.), John Wiley & Sons Chichester, pp. 437 - 502 (2012)
L. W. Kong, E. Zschech, et al., J. Appl. Phys. 110, 053502 (2011) DOI:10.1063/1.3629988
Cavity
Void chain
Curved bottom
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SEM image of FIB X-section of AgSn solder micro-bump after nano XCT study
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Requests to hard X-ray microscopy/tomography @ high resolution ( 10 nm) and @ high photon energies !
Example:
Solder quality study requires
… ~ 10 nm resolution
quantification of shape of solder
joints, size of voids, kind and size of
intermetallic phases)
… high photon energies no or
less efforts for sample preparation
(deprocessing/thinning) high
sample throughput
Micro XCT - 3D TSV stack with Cu TSVs and
AgSn solder bumps
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1nm 10nm 100nm 1µm 10µm 100µm 1mm 10mm 100mm
macromicronano
voxel size
SPM techniques
XRD
scanning
acoustic
microscopy
thermography
macro XCT
sub micro
micro XCT
X-ray microscopy to 10 nm … 1 nm ???
Nano Transmission X-ray Microscopy (TXM) / XCT
with novel X-ray optics
Nanoanalysis Non-destructive testing
TEM/SEM
Sub-micron
XCT
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NANOANALYSISNANOANALYSIS
Limits of zone plates: ~ 30 nm structures
Grating height: 1600nm
Grating bar width: 100nm
Zone plates are fabricated out of high-Z (typically gold) material using electron beam lithography, reactive ion etching and electroplating.
Focusing efficiencies 10-30% currently achievable (depends on A/R).
E. Zschech, W. Yun, G. Schneider, Appl. Phys. A 92, 423 – 429 (2008)
Courtesy: Zeiss/Xradia
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Multilayer Laue lenses – Tuning of optics:High resolution, high photon energies
Crossed partial MLLs: two-dimensional focusing and imaging
MLL geometries
H. Yan et al. Physical Review B 76.11, p. 115438 (2007)
S. Niese, PhD Thesis 2014
S. Niese et al., Optics Express 2014
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X-ray microscopy with focusing condenser optics and Multi-layer Laue lenses
Multilayer Laue lenses:
enhanced resolution
and efficiency
S. Niese et al., 2nd Dresden Nanoanalysis Symposium 2014, XRM 2014
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Proof of concept – X-ray microscopy with MLL
Lab-Based X-ray Microscopy: 2D Image of „Siemens Star“: FZP vs. MLL
Fresnel Zone PlateMulti-Layer Laue Lense
S. Niese, PhD Thesis 2014
S. Niese et al., Optics Express 2014
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Novel laboratory X-ray microscopy setup at Fraunhofer IKTS for high photon energies
X-ray source: Rotating anode (Mo)
X-ray optics:
2D focusing mirror “ASTIX-f”
(AXO Dresden)
+ crossed Multilayer Laue lense
S. Niese, PhD Thesis 2014
S. Niese et al., 2nd Dresden Nanoanalysis Symposium,
Dresden, July 2014
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Extension of laboratory-based X-ray microscopy/nano XCT
Today
X-ray microscopy bridges the “resolution gap” between light microscopy and
electron microscopy (3D information)
30…50nm resolution (Cu Ka, Cr Ka)
Novel approach:
X-ray microscopy with novel optics
(Multilayer Laue lenses)
Resolution improvement to 10nm (… 1nm)
down-scaled structures and defects in
microelectronic products, …
Increased efficiency
shorter measurement times (industrial
applications, kinetic studies)
Larger working distance (~ 5 cm)
chambers (temperature, chemical reactions,
…), mechanical tests (crack propagation)
Higher X-ray energies (e. g. Mo source)
penetration of devices (wafers), …
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Contact: [email protected]
Picture: NovaledPicture: Fraunhofer IPMS Picture: GLOBALFOUNDRIES
Thank you !
Martin Gall, FhG IKTS Dresden
Adam Kubec, FhG IWS Dresden
Reiner Dietsch, Sven Niese, AXO Dresden GmbH
Project No. 16ES0070, within the frame of the projects EC „Master 3D“ and BMBF „3D-Innopro“.