#Australia #Victoria #Quantic Wenzel #Australian Research Council #quartz crystal oscillators

Quantic Wenzel Partners with Australian Research Council to Investigate Cosmic Ray Effects

Quantic Wenzel, a subsidiary of Quantic Electronics specializing in precision frequency control and timing solutions, has embarked on an exciting new research collaboration with the Australian Research Council (ARC) Centre of Excellence for Engineered Quantum Systems (EQUS). This partnership focuses on understanding the effects of cosmic rays on quartz crystal oscillators, which are crucial for various ultra-precision applications.

The research is set to take place at the Cryogenic Experimental Laboratory for Low-background Australian Research (CELLAR), located within Victoria's Stawell Underground Physics Laboratory (SUPL). This facility is uniquely designed to provide a deep-underground environment that minimizes interference from cosmic radiation, offering an ideal setting for studying how cosmic rays influence oscillator phase noise and overall performance.

Mehran Moss, Chief Engineer at Quantic Wenzel, expressed enthusiasm about the research potential, stating, "CELLAR's unique environment will enable us to test oscillators in ways that were previously impossible, potentially revealing new insights into oscillator phase noise limitations." This investigation aims to unlock new findings in oscillator technology, advancing both theoretical physics and practical applications in quantum technologies.

Objectives of the Partnership

The primary aim of this collaboration is to study the noise limitations in quartz crystal oscillators under extreme conditions. The initial phases of the project will focus on non-cryogenic oscillator performance. Long-term goals involve the development of cryogenic quartz crystal oscillators, which are expected to significantly enhance precision for various high-tech applications.

Dr. Maxim Goryachev, an ARC Research Fellow, highlighted the importance of this partnership, commenting, "This partnership will bring unprecedented clarity to the field, expanding our understanding of fundamental physics while advancing innovation in quantum technologies and high-tech industries."

The project is bolstered by funding from the ARC's Linkage, Infrastructure, Equipment and Facilities (LIEF) scheme, which supports significant collaborative research efforts between universities and industry entities in Australia.

About Quantic Wenzel

Since its establishment in 1978, Quantic Wenzel has been a leader in ultra-low phase noise crystal oscillators, serving a diverse array of mission-critical military, aerospace, and commercial applications. Their advanced product lineup is designed to operate effectively in extreme environments, thus ensuring reliability in any scenario.

As part of Quantic Electronics, Quantic Wenzel benefits from an expansive engineering ecosystem and a robust supply chain, underscoring a competitive edge that translates to significant advantage for its clients.

Significance of the Research

The outcomes of this research could have broad implications, not only for improving oscillator technology but also for enhancing the overall understanding of quantum systems. By investigating cosmic ray interactions within quartz crystal oscillators, researchers may uncover fundamental truths about phase noise that affect numerous scientific and engineering fields.

Overall, the partnership between Quantic Wenzel and the Australian Research Council represents a significant step forward in both the study of cosmic rays and the development of next-generation oscillators, promising to push the boundaries of what is currently achievable in technology.

For further information on Quantic Wenzel and their research initiatives, you can visit their website at quanticwenzel.com.

To learn more about the Australian Research Council’s Centre of Excellence for Engineered Quantum Systems, visit equs.org.