Creation of New Precision Optical and Microwave Technologies and their Application to Testing the Fundamental of Physics. Clocks and oscillators are crucial for the highest precision scientific and industrial measurements and are the foundation of modern communications technology. Recent developments in laser-cooled optical clocks promise a wave of revolutionary changes to global navigation, timekeeping and precision measurement. Our group has already achieved world's-best performance in this f ....Creation of New Precision Optical and Microwave Technologies and their Application to Testing the Fundamental of Physics. Clocks and oscillators are crucial for the highest precision scientific and industrial measurements and are the foundation of modern communications technology. Recent developments in laser-cooled optical clocks promise a wave of revolutionary changes to global navigation, timekeeping and precision measurement. Our group has already achieved world's-best performance in this field. To stay at the forefront of this wave we propose a broad-ranging program of research aimed at:
- new clocks of 100 times higher performance than any existing clock,
- development of extremely low noise photonic oscillators,
- the application of these new technologies to test the foundations of Physics, including involvement in a space-based experiment.
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Application of Femtosecond Light Sources to Generation of Low Noise Microwave Signals. The main goal of the research project is to develop prototypes of photonic oscillators capable of generating spectrally pure signals both at optical and microwave frequencies. The project is also aimed at understanding noise mechanisms affecting frequency stability of classical microwave oscillators based on sapphire loaded cavity resonators. By cryogenically cooling such resonators we plan to create a new fam ....Application of Femtosecond Light Sources to Generation of Low Noise Microwave Signals. The main goal of the research project is to develop prototypes of photonic oscillators capable of generating spectrally pure signals both at optical and microwave frequencies. The project is also aimed at understanding noise mechanisms affecting frequency stability of classical microwave oscillators based on sapphire loaded cavity resonators. By cryogenically cooling such resonators we plan to create a new family of extremely low noise and economically viable microwave signal sources. The research proposed will enrich the field of oscillator frequency control, give rise to new techniques for precision noise measurements and reinforce Australia's position at the forefront of microwave and photonic science.Read moreRead less
Microwave-modulated optical systems for free-space and undersea communications. Although offering flexible, rapid deployment, free space and underwater comunications have not kept up with progress in optical fibre communications, and current systems are signficantly restricted in range and data rate. To address these needs, we will develop novel laser systems using coherent detection, with infrared output for eyesafe transmission in air, and blue-green output for transmission underwater. The s ....Microwave-modulated optical systems for free-space and undersea communications. Although offering flexible, rapid deployment, free space and underwater comunications have not kept up with progress in optical fibre communications, and current systems are signficantly restricted in range and data rate. To address these needs, we will develop novel laser systems using coherent detection, with infrared output for eyesafe transmission in air, and blue-green output for transmission underwater. The signal is a microwave modulation on the optical carrier, which permits longer-range transmission while maintaining signal coherence. Key advantages include increased detection sensitivity, and potential to scale up the modulation frequency and the power for higher data rates and longer propagation distance.Read moreRead less