Nonlinear photonic crystal fabrication in a high refractive index lithium niobate crystal. The method proposed in this project is a very promising and versatile method to achieve 3D nonlinear PhCs in a high refractive index material. This project will expand the national knowledge in the area of nonlinear PhCs. The successful compensation of the spherical aberration will advance the optical microfabrication technique. It is expected that the project will provide many chances for postgraduate stu ....Nonlinear photonic crystal fabrication in a high refractive index lithium niobate crystal. The method proposed in this project is a very promising and versatile method to achieve 3D nonlinear PhCs in a high refractive index material. This project will expand the national knowledge in the area of nonlinear PhCs. The successful compensation of the spherical aberration will advance the optical microfabrication technique. It is expected that the project will provide many chances for postgraduate students to become involved. Some newly developed devices based on nonlinear PhCs may find their commercial applications and we have a chance of securing the intellectual property related to these applications. In a long term, nonlinear PCs may be widely used in daily life and provide some opportunities to the industries.Read moreRead less
Multi-dimensional optical data storage based on nanophotonics - the third generation optical data storage technology. The key-sector in high tech markets has been the photonics industry over the last decade, and it will continue to revolutionise our ways of information storage, processing and transfer for the next 10 to 20 years. The current project of high-capacity Petabyte optical data storage, i.e the third generation optical data storage, will prove to be the key technological innovation in ....Multi-dimensional optical data storage based on nanophotonics - the third generation optical data storage technology. The key-sector in high tech markets has been the photonics industry over the last decade, and it will continue to revolutionise our ways of information storage, processing and transfer for the next 10 to 20 years. The current project of high-capacity Petabyte optical data storage, i.e the third generation optical data storage, will prove to be the key technological innovation in photonics (one of the National Research Priorities), which will not only meet the growing demands of the consumer market, but also continue to drive the industry and create new markets. This is in line with the Priority Goals set by the Minister for Education, Science and Training, as it will put Australia into the unique position in the information age. Read moreRead less
Nano-photonic fabrication and storage using near-field super-resolving probes. The aim of the project is to develop a novel near-field storage device and nano-fabrication instruments, which are based on the super-resolution technique. As a result, the new storage device has a density 100 times of the current DVD technology. The nano-fabrication techniques can be used for all optics devices of nanometer resolution for fast information transferring. This project extends the key developments in t ....Nano-photonic fabrication and storage using near-field super-resolving probes. The aim of the project is to develop a novel near-field storage device and nano-fabrication instruments, which are based on the super-resolution technique. As a result, the new storage device has a density 100 times of the current DVD technology. The nano-fabrication techniques can be used for all optics devices of nanometer resolution for fast information transferring. This project extends the key developments in the field of nano-photonics and will put Australia in a uniquely strong position in the internationally competitive information technology field.Read moreRead less
Development of three-dimensional high-density optical data storage and photonic crystals in photo-polymers with a superresolution imaging system. The aim of this project is to develop a three-dimensional (3-D) high-density optical data storage method and photonic crystals in photo-polymers using a superresolution imaging system. As a result, it is possible to produce a 3-D data density of approximately 10 Tbits/cm3 in low-cost and erasable photo-polymers, equivalent to 3000 times the information ....Development of three-dimensional high-density optical data storage and photonic crystals in photo-polymers with a superresolution imaging system. The aim of this project is to develop a three-dimensional (3-D) high-density optical data storage method and photonic crystals in photo-polymers using a superresolution imaging system. As a result, it is possible to produce a 3-D data density of approximately 10 Tbits/cm3 in low-cost and erasable photo-polymers, equivalent to 3000 times the information in a current digital video disc (DVD). 3-D polymer-based photonic crystals will provide fast, low-cost and compact all-optics devices for optical computing technology. Consequently, the capacity and speed of information super-highways will be significantly increased, which enhances the internationally competitive ability of Australia in information technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347462
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Femtosecond laser micromachining facility. The proposed establishment of a femtosecond laser micromachining facility, with microdiagnostic capabilities, will facilitate a range of projects involving fabrication of submicron structures in metals, polymers, glasses, ceramics and crystalline materials. This facility, unique in Australia , will be comparable to the best such facilities in the world, enabling researchers to apply new microfabrication techniques to a range of photonic and optoelectro ....Femtosecond laser micromachining facility. The proposed establishment of a femtosecond laser micromachining facility, with microdiagnostic capabilities, will facilitate a range of projects involving fabrication of submicron structures in metals, polymers, glasses, ceramics and crystalline materials. This facility, unique in Australia , will be comparable to the best such facilities in the world, enabling researchers to apply new microfabrication techniques to a range of photonic and optoelectronic devices, including laser-written optical planar waveguides, nonlinear components and photonic bandgap structures , and various biomedical microstructures. Outcomes will include demonstration and development of novel photonic/optoelectronic devices and of new techniques, crucial to cost-effective manufacture of photonic components.Read moreRead less
Exploring Synergies between Frontier Microphotonics and Advanced Time and Frequency Technology. Recently scientists have developed the means to manufacture objects that are on the same microscopic scale as light itself. These structures can deliver exquisite control of the properties of the light beams. Our existing research has been aimed at developing some of the world's most precise measurement tools based on clocks and the pure colours generated by lasers. By combining these two technologie ....Exploring Synergies between Frontier Microphotonics and Advanced Time and Frequency Technology. Recently scientists have developed the means to manufacture objects that are on the same microscopic scale as light itself. These structures can deliver exquisite control of the properties of the light beams. Our existing research has been aimed at developing some of the world's most precise measurement tools based on clocks and the pure colours generated by lasers. By combining these two technologies, both of which lie at the extreme limit of precision, we will develop a new generation of technology for fundamental science objectives as well as for industrial needs.Read moreRead less
Optical parametric processes in randomized nonlinear photonic structures. This project will have an impact on understanding of the nonlinear optical effects in micron and sub-micron structures providing knowledge for potential practical applications. Innovative ideas emanating from this program will increase the national and international standing of the ANU and strengthen the reputation of Australia in the field of nonlinear photonics. The project will expand existing and create new collaborati ....Optical parametric processes in randomized nonlinear photonic structures. This project will have an impact on understanding of the nonlinear optical effects in micron and sub-micron structures providing knowledge for potential practical applications. Innovative ideas emanating from this program will increase the national and international standing of the ANU and strengthen the reputation of Australia in the field of nonlinear photonics. The project will expand existing and create new collaborative links with high profile international partners. It will also provide training and experience in the cutting edge research for graduate and undergraduate students.Read moreRead less
A Laser Guide Star using a High Power, Synchronously Pumped Optical Parametric Oscillators. We will develop a novel high power source of 589nm coherent (laser) light to be used to create a laser guide star by exciting sodium atoms in the earth's upper atmosphere (the mesosphere). This is needed to determine the distortion caused by the atmosphere on an optical beam propagating through it and generate the information needed to correct those distortions using an adaptive optics telescope. This pr ....A Laser Guide Star using a High Power, Synchronously Pumped Optical Parametric Oscillators. We will develop a novel high power source of 589nm coherent (laser) light to be used to create a laser guide star by exciting sodium atoms in the earth's upper atmosphere (the mesosphere). This is needed to determine the distortion caused by the atmosphere on an optical beam propagating through it and generate the information needed to correct those distortions using an adaptive optics telescope. This project focuses on the development of a novel high power 589nm source based on a synchronously pumped optical parametric oscillator.Read moreRead less
Nanometric optical sensing for characterisation of microbioreactors. Microfabrication of microfluidic based microbioreactors is a novel technology that is creating advanced tools in the fields of biology and medicine. A critically important step in the development of a microbioreactor is the ability to characterise fluid shear stress of the microenvironment without impacting on the biological system. The development of a microbioreactor in which individual or multiple cells can be cultured and ....Nanometric optical sensing for characterisation of microbioreactors. Microfabrication of microfluidic based microbioreactors is a novel technology that is creating advanced tools in the fields of biology and medicine. A critically important step in the development of a microbioreactor is the ability to characterise fluid shear stress of the microenvironment without impacting on the biological system. The development of a microbioreactor in which individual or multiple cells can be cultured and manipulated will have a significant impact on study of biological systems in cancer research and stem cell research. Read moreRead less
Fabrication of complete photonic band gap structures by two-photon polymerization and subsequent infiltration with high refractive index materials. The ability to shrink photonic circuits by orders of magnitudes by the integration of photonic crystals offers many stimulating possibilities for novel device designs. A speculative view is that this miniaturisation can have a similar impact to that experienced in electronic components in the 1960s. However, the fabrication of 3D photonic crystals re ....Fabrication of complete photonic band gap structures by two-photon polymerization and subsequent infiltration with high refractive index materials. The ability to shrink photonic circuits by orders of magnitudes by the integration of photonic crystals offers many stimulating possibilities for novel device designs. A speculative view is that this miniaturisation can have a similar impact to that experienced in electronic components in the 1960s. However, the fabrication of 3D photonic crystals remains a major challenge and the development of new, flexible, and fast nano-fabrication techniques is vital. The realization of an innovative technique for the fabrication of 3D complete photonic band gap structures as it is suggested will make an essential contribution to the emerging field of all-optical tele- and data-communications and will deliver major economic benefit to Australia. Read moreRead less