Dutch Consortia Secure €2.75 Million for Einstein Telescope Vibration Damping Research

Dutch Consortia Secure €2.75 Million for Einstein Telescope Vibration Damping Research

2024-09-02 semicon

Delft, Monday, 2 September 2024.
Two Dutch consortia, led by Lionite and Onnes Technologies, have each been awarded €1.375 million to develop advanced vibration damping technologies for the Einstein Telescope. The SENVIDET consortium, headed by Lionite, aims to create ultra-sensitive acceleration sensors, while the ICVI consortium, led by Onnes Technologies, focuses on cryogenic vibration isolation. These innovations are crucial for the telescope’s unprecedented sensitivity and could have applications beyond astrophysics in industries such as semiconductors and pharmaceuticals.

The Role of Vibration Damping in Advanced Observatories

The Einstein Telescope, planned to be the most sensitive gravitational wave observatory in Europe, faces significant challenges related to vibration damping. Gravitational waves, ripples in spacetime caused by massive cosmic events, require extremely precise detection instruments. Even the smallest vibrations can interfere with these measurements, making advanced damping technologies essential. The collaborations led by Lionite and Onnes Technologies aim to address these challenges head-on, enhancing the Einstein Telescope’s ability to detect gravitational waves with unprecedented accuracy.

SENVIDET Consortium: Ultra-Sensitive Acceleration Sensors

The SENVIDET consortium, spearheaded by Lionite from Delft, is focused on developing ultra-sensitive acceleration sensors capable of detecting minute vibrations in the telescope’s mirror suspension system. These sensors aim to measure deflections caused by slow movements in the surrounding rock, targeting anomalies as small as one billionth of a meter. This level of sensitivity is crucial for the telescope’s ability to detect gravitational waves, which often manifest as extremely faint signals. Lead engineer Jochem Klaassen emphasized the difficulty of the task, noting that nothing on Earth is more still than the Einstein Telescope itself.

ICVI Consortium: Cryogenic Vibration Isolation

Onnes Technologies, based in Leiden, leads the ICVI consortium, which is developing cryogenic vibration isolation technologies. These technologies aim to create an extremely stable and cold environment for the telescope’s optics. By cooling the measurement setups to cryogenic temperatures, the ICVI consortium seeks to eliminate new vibration sources, thereby improving the telescope’s sensitivity. CEO Max Kouwenhoven highlighted the Netherlands’ rich history in low-temperature physics, stating that ICVI represents the next step in this tradition.

Broader Implications and Future Prospects

The innovations developed by these consortia have potential applications beyond the realm of astrophysics. For instance, the semiconductor and pharmaceutical industries could benefit from these advanced vibration damping technologies. The Dutch R&D scheme, part of the Einstein Telescope valorization program under the National Growth Fund, aims to foster such high-tech developments. Minister Eppo Bruins noted that these initiatives not only provide scientific advantages but also enhance the technological capabilities of the Netherlands, strengthening the country’s future economic prospects.

Next Steps and Continued Collaboration

The R&D scheme continues to offer opportunities for further innovation. Currently, the technology domain for optics is open for applications until September 12, 2024, with future fields including thermal deformations and vacuum technology. Jorg van der Meij, program manager at LIOF, encourages high-tech companies and research institutions to participate actively. The ongoing collaboration between industry and academia is crucial for maintaining the momentum of technological advancements and securing the Einstein Telescope’s position as a leader in gravitational wave research.

Bronnen


oostnl.nl arxiv.org vibration damping www.einsteintelescope-emr.eu einstein telescope