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group-IV LASer and deTectors on Si-TEchnology Platform

Project description

The world’s first monolithic all-Group-IV photonic platform

Many sensing applications rely on light-matter interaction. Photonics components that emit and detect in the mid-infrared frequency range, also known as the molecular fingerprint region, are key to applications in environmental sensing, food monitoring and biomedical diagnostics. These photonics components are difficult and expensive to manufacture, as they are typically not compatible with conventional, low-cost complementary metal-oxide-semiconductor (CMOS) manufacturing processes. The EU-funded LASTSTEP project will overcome this problem using silicon-germanium-tin semiconductors that feature unique optical properties and compatibility with state-of-the-art CMOS manufacturing processes. This will lead to the world’s first monolithic all-Group-IV photonic platform, cost-effective and ready for widespread adoption, to be demonstrated in four prototypes for two use cases.

Objective

Photonics plays a key role in many applications, such as a detection of environmental or toxic gases, analyses of food or health-related products. Those applications depend on the development of highly advanced photonic components working in the mid-infrared (MIR) wavelength range. These components have always been difficult and expensive to make, as they are not compatible with standard microelectronic or photonic fabrication processes.
LASTSTEP ambitions to address this issue by developing the world-first all-Group-IV photonic platform using silicon-germanium-tin alloys (SiGeSn). Focusing on the MIR 2-5 µm region essential for sensing of chemical species, the project aims to ensure a wide scale adoption of the developed technology by offering a fully monolithic solution compatible with standard state-of-the-art 200mm CMOS manufacturing processes. The approach will enable cost-effective solutions for sensing, but also for autonomous navigation or consumer products.
To achieve this objective, LASTSTEP gathers a world class consortium composed of 3 academic partners, 2 RTOs and 3 industrials. The partners are:
-leaders of a CMOS compatible technology for growth and processing of GeSn direct bandgap alloys in an industry-relevant environment
- two SMEs well-established on the markets of gas and liquid sensing
- world leading PIC design and test-house company to ensure further exploitation of results.
LASTSTEP will develop four prototypes based on the fully-group-IV photonic platform for two use-cases. Prototypes will first be assembled from discrete components, then integrated on PICs.
LASTSTEP aims to secure for Europe an outstanding position in development and economic exploitation of Si photonics, thereby anticipating maximal return on investment for the EU society. LASTSTEP will bring the decisive further development of Si photonics into a technologically mature MIR platform ready for innovations in the communications, sensing, health, food and safety sector.

Coordinator

COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES
Net EU contribution
€ 1 238 146,50
Address
RUE LEBLANC 25
75015 PARIS 15
France

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Region
Ile-de-France Ile-de-France Paris
Activity type
Research Organisations
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Total cost
€ 1 238 146,50

Participants (7)

Partners (1)