Allalin

Hybridized SEM – Spectroscopic Platform

SEM – Quantitative Cathodoluminescence (qCL)
Spectroscopic Analysis (Photoluminescence, Raman, …)
Time-resolved measurements (TRCL, TRPL, g², …)
Electrical Measurements (EBIC/EBAC)
Room to low-temperature analyses (<10K)
Cryo-compatible Nanoprobes

Characteristics

About our Hybridized SEM – Spectroscopic Platform

The Allalin is a nanometer-resolution SEM-spectroscopic instrument featuring a unique optical collection objective integrated within the SEM column, which allows for robust and repeatable measurements, enabling quantitative cathodoluminescence (qCL) analysis.

‍One Platform, Multiple Measurement Possibilities

The Allalin platform supports a wide range of spectroscopic analysis techniques, utilizing multiple sources (electron beam or laser, in continuous or pulsed mode) and various detectors (SE detector, PMT, CCD/Streak cameras, InGaAs/TCSPC/HPD detectors).

The system can also be equipped with options like in-SEM electrical probing, Raman spectroscopy, Photoluminescence, and HBT setup for g(2) autocorrelation measurement.

Different stage options are available to accommodate samples as small as a few micrometers to wafers up to 6 inches.

Finally, spectroscopic analyses can be conducted at temperatures ranging from 10 K to 320 K, thanks to an integrated helium cryostat and a unique hexapod-based stage design, which ensures high stability and very low drift (<5 nm/min).

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Features

Explore Allalin Platform Options

Explore the versatility of the Allalin platform with its extensive range of customizable options.

Select your options according to your needs :

CW-CL detector

e-sources

PS photoelectric pulsed source

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Beam blanker

In-column injection

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In-SEM photoluminescence

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In-SEM Raman Spectroscopy

Stage

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6-inch Wafer stage

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Liquid Helium Cryostage

TR-CL detector

Others

In-SEM electrical measurements

Trusted by top semiconductor companies and prestigious research institutes worldwide

Applications

Related Applications Using the Allalin Platform

Discover how the Allalin platform can support your research.

View all applications

GaN

SiC

Process development

Materials Science

Micro/Nanowire

GaN device

Life Science

Power electronics

We will show how spectrally-resolved quantitative CL can address this challenge

References

Scientific references in link with our Hybridized SEM – Spectroscopic Platform

View all references

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Low energy cathodoluminescence analysis of damage build-up in ion irradiated spinel mono- and polycrystals Iwona Jozwik, Marcin S. Zielinski, Alexander Azarov, Renata Ratajcak, Cyprian Mieszczynski, Anna Stonert, Jacek Jagielski Nuclear Instruments and Methods in Physics Research B, 2017 2017

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Exciton dynamics at a single dislocation in GaN probed by picosecond time-resolved cathodoluminescence W. Liu, J.-F. Carlin, N. Grandjean, B. Deveaud, G. Jacopin Applied Physics Letters, 109, 042101, 2016 2017

doi 

Direct Fabrication of Three-dimensional Metallic Networks and their Performance R. Ron, K. Rechav, D. Gachet, A. Salomon Advanced Materials, 29, 1604018, 2017 2017

doi 

Determination of n-Type Doping Level in Single GaAs Nanowires by Cathodoluminescence Hung-Ling Cheng, Chalermchai Himwas, Andreas Scaccabarozzi, Pierre Rale, Fabrice Oehler, Aristide Lemaître, Laurent Lombez, Jean-François Guillemoles, Maria Tchernycheva, Jean-Christophe Harmand, Andrea Cattoni, Stéphane Collin Nano Letters, 17(11), 6667-6675, 2017 2017

doi 

Ready to revolutionize your materials characterization approach?

Get in touch with us today to discover how our state-of-the-art cathodoluminescence tools can elevate your research and industry applications.

 Already more than 30 systems installed globally!

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