We are always looking for talented and motivated researchers to join the Watson Laser Lab. Our group offers exciting opportunities to work at the forefront of laser spectroscopy and molecular dynamics research.
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This project uses laser spectroscopy to study molecules as they evaporate from liquid surfaces. It involves the construction and testing of apparatus followed by experimentation using model systems as spectroscopic probes.
Aims
The aim of this project is to understand how the properties of molecules, namely their temperature, changes at liquid-air interfaces. This will be done by utilising molecules with well characterised photoionisation spectra and investigating how these spectra change depending on the nature of the liquid interface.
Objectives
The objectives of this project will be to construct and recommission a liquid microjet apparatus and undertake initial testing and characterisation of the instrument. This will entail the physical construction of the apparatus, testing of components and laser systems, and design and implementation of data acquisition software. Following this, initial experimental studies using simple spectroscopic probe molecules will investigate the nature of the liquid-air interface under varying solute-solvent conditions.
In addition to this project, a student will have the opportunity to engage in all aspects of work within the Watson Research Group and contribute to projects utilising central laser facilities and light sources, and make use of high-performance computational resources.
Significance
The significance of this work is to understand how the reactivity of molecules emitted into the atmosphere changes at liquid-air interfaces such as those in aerosols. While atmospheric models are becoming increasingly sophisticated, reactions at interfaces are limited. How does reactivity change under solvated conditions and does the composition of solvent systems further effect this?
Ideal Candidate
This project would suit a self-motivated PhD candidate with a background in either chemistry, physics or chemical engineering (must be eligible to enrol in PhD programs at Curtin). This project is designed to be approachable with a focus on research training and prospective candidates should be inquisitive and demonstrate an eagerness to learn and develop new skills. Experience in spectroscopy or the use of lasers is ideal. Desirable skills also include the ability to project manage and maintain requisite safety documentation, familiarity with common electronic structure packages, programming with a focus on instrument control and data acquisition, and basic electronics.
This project is open to domestic and international applicants.
Scholarships at Curtin
Explore Scholarship opportunities available to HDR students at Curtin. If you are identified as the preferred candidate for this project, you may be considered for an RTP scholarship.
Undertaking a predefined Higher Degree by Research project is your chance to help turn new discoveries into real solutions. Learn more about Higher Degree by Research | Curtin University and the RTP Scholarship process.
Enquiries
If this project interests you, contact Dr Peter Watson via the Expression of Interest.
More Information Found Here (search `liquid’) | Application Deadline: August 18, 2025
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The Watson Laser Lab is committed to fostering an inclusive environment that supports researchers from all backgrounds. We particularly encourage applications from underrepresented groups in STEM fields.
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