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Photonic integrated circuits
Prototyping
Cathodoluminescence and Electron Microscopy Services
Photonic Integrated Circuits
Technical Scope and Capabilities
This service group provides electron microscopy, cathodoluminescence, EBIC, defect-density evaluation and data-analysis services.
Core Infrastructure / Tools / Equipment
The service uses
- Attolight Chronos hybrid cathodoluminescence–SEM microscope
- Digital Surf Attomap software
- OriginLab Origin software
- dedicated Python code
- dedicated C++ code
- Light Conversion Pharos, Orpheus and Harpia-TG systems for selected services
- video processing tools for degradation analysis.
Nano-Scale Surface Topography Imaging by SEM
Capabilities and parameters:
- measurements and basic image post-processing
- electron acceleration 1–10 keV
- magnification up to 400k
- spatial resolution 3 nm
- image resolution up to 2k × 2k pixels
- image formats: sur, tif, png, raw
- probe current 100 fA–100 nA
- temperature 10–320 K
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required.
EBIC Imaging of Electrical Properties
Capabilities and parameters:
- electron beam induced current imaging
- measurements and basic image post-processing
- electron acceleration 1–10 keV
- spatial resolution diffusion-limited
- image resolution up to 2k × 2k pixels
- image formats: sur, tif, png, raw
- probe current 10–100 nA
- temperature 10–320 K
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required.
Hyperspectral Cathodoluminescence Imaging
Capabilities and parameters:
- hyperspectral imaging of time-integrated luminescence properties
- measurements and basic image post-processing
- electron acceleration 1–10 keV
- spatial resolution diffusion-limited
- image resolution up to 512 × 512 pixels
- file formats for single-wavelength or panchromatic maps: sur, tif, png
- file formats for hyperspectral maps: sur and video formats
- probe current 100 fA–100 nA
- temperature 10–320 K
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required
- sample luminescence efficiency moderate or better
- sample irradiation resistance moderate or better
- sample active volume depth 150 nm
- spectral range 200–900 nm
- field of view up to 300 micrometres.
Space- and Time-Integrated Cathodoluminescence Spectra
Capabilities and parameters:
- capture of space- and time-integrated cathodoluminescence spectra
- measurements and basic data processing
- electron acceleration 1–10 keV
- probe current 100 fA–100 nA
- temperature 10–320 K
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required
- sample luminescence efficiency low or better
- sample irradiation resistance low or better
- sample active volume depth 200 nm
- spectral range 200–900 nm.
Spectra- and Time-Resolved Cathodoluminescence Transients
Capabilities and parameters:
- capture of spectra- and time-resolved cathodoluminescence transients
- basic data processing including lifetime extraction
- electron acceleration 3–10 keV
- typical spatial resolution 50 nm
- typical probe current 50 pA
- temperature 10–320 K
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required
- sample luminescence efficiency low or better for spatially integrated configuration and moderate for spatially resolved configuration
- sample irradiation resistance low or better for spatially integrated configuration and moderate for spatially resolved configuration
- sample active volume depth 150 nm
- spectral range 200–900 nm
- temporal resolution 20–100 ps
- pulse repetition rate 2–80 MHz.
Spectro-Spatio-Temporal 4D Imaging of Carrier Dynamics
Capabilities and parameters:
- spectro-spatio-temporal 4D imaging of carrier dynamics by cathodoluminescence microscopy
- measurements and basic data processing
- electron acceleration 3–10 keV
- typical spatial resolution 50 nm
- image resolution up to 24 × 24 pixels, upscaled to 96 × 96 pixels
- typical probe current 50 pA
- temperature 10–320 K
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required
- sample luminescence efficiency high
- sample irradiation resistance high
- sample active volume depth 100 nm
- spectral range 200–900 nm
- temporal resolution 20–100 ps
- pulse repetition rate 2–80 MHz.
Extended Defect Density Evaluation
Capabilities and parameters:
- evaluation of dislocation and V-pit density
- cathodoluminescence–electron microscopy
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required
- sample luminescence efficiency moderate or better
- sample irradiation resistance moderate or better
- sample active volume depth 50 nm
- spectral range 200–900 nm.
Point Defect Density Estimation
Capabilities and parameters:
- estimation of point defect density using electron-optical approaches
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe and optically clear sample required
- sample luminescence efficiency moderate or better
- sample irradiation resistance moderate or better
- sample active volume depth 50 nm
- spectral range 260–900 nm.
Material Degradation under Electron Irradiation
Capabilities and parameters:
- quantification of degradation metrics, including threshold and time
- electron acceleration 1–10 keV
- probe current 100 fA–100 nA
- temperature 10–320 K
- sample dimensions up to 25 × 25 × 2 mm
- vacuum-safe sample required
- sample active volume depth 200 nm
- spectral range 200–900 nm
- exposure step of a few seconds.
Bespoke Cathodoluminescence Data Analysis
Capabilities:
- bespoke analysis of spectro-spatio-temporal cathodoluminescence data
- Digital Surf Attomap
- bespoke Python code
- code licensing under MIT licence.
