Physics Research And Report Coursework


Positrons and Dust Grains

Positron emitters are embedded in clouds of dust grains produced by supernova. This project will explore the transport of positrons in dust grains using Monte-Carlo techniques to improve our understanding of positron transport in an astrophysically relevant setting.

Dr Joshua Machacek, Dr Daniel Murtagh

Search for supernova-signatures on Earth

Detection of supernova‐produced (radio)nuclides in terrestrial archives gives insight into massive star nucleosynthesis; when and where are heavy elements formed. Direct observation of radioactive nuclides from stars and the interstellar medium would provide first experimental constraints on production rate.s We will use the most sensitive technique, accelerator mass spectrometry.

Dr Anton Wallner

Nucleosynthesis in the laboratory - how elements are formed in stars

A fundamental scientific question is a better understanding of the elemental abundances and the isotopic pattern of our solar system which is a fingerprint of stellar nucleosynthesis. We perform nucleosynthesis in the laboratory at the ANU via a new and powerful tool, accelerator mass spectrometry, to elucidate open questions in these processes.

Dr Anton Wallner

Atomic and Molecular Physics

Optical quantum memory

An optical quantum memory will capture a pulse of light, store it and then controllably release it. This has to be done without ever knowing what you have stored, because a measurement will collapse the quantum state. We are exploring a "photon echo" process to achieve this goal.

Dr Ben Buchler

Positrons and Dust Grains

Positron emitters are embedded in clouds of dust grains produced by supernova. This project will explore the transport of positrons in dust grains using Monte-Carlo techniques to improve our understanding of positron transport in an astrophysically relevant setting.

Dr Joshua Machacek, Dr Daniel Murtagh

Foundations of light particles in liquids

Although much progress has been made in understand how electrons and positrons move throughout liquids, one cruicial property, V0, the "background energy" is poorly understood. This project aims to calculate V0 using an ab initio model.

Dr Daniel Cocks

The signature of large-amplitude vibrational motions encoded into small polyatomic molecular spectra

This project uses the Australian National University's world-leading state-of-the-art spectrometer to examine state-resolved chemistry, which has been a target of chemical physics for several decades.  It will verify the long suspected existence of large amplitude vibrational eigenstates organised along the isomerization path, that are the signatures of the "holy grail" of chemical dynamics. This provides for previously unimagined schemes for efficient, rationally designed external control of chemical reactions.

Dr Stephen Gibson

Attosecond time-resolved atomic reactions

We apply the most advanced quantum-mechanical modeling to resolve electron motion in atoms and molecules on the atto-second (one quintillionth of a second) time scale.  Our theoretical modeling, based on a rigorous, quantitative description of correlated electron dynamics, provides insight into new physics taking place on the atomic time scale.

Professor Anatoli Kheifets, Dr Igor Ivanov

How does a quantum system reach equilibrium?

The idea of equilibration is ubiquitous throughout nature. Out-of-equilibrium dynamics – be it caused by a disturbance and subsequent “rethermalisation”, or by passing through a phase transition – is a difficult question to characterise. This project looks at both equilibration and phase transitions in a Bose-Einstein condensate of metastable helium atoms.

Assoc. Prof Andrew Truscott, Professor Kenneth Baldwin

Modelling free-ion hyperfine fields

Motivated by exciting prospects for measurements of the magnetism of rare isotopes produced by the new radioactive beam accelerators internationally, this computational project seeks to understand the enormous magnetic fields produced at the nucleus of highly charged ions by their atomic electron configuration.

Professor Andrew Stuchbery, Dr Tibor Kibedi



The energy lansdscape of folded spheres, assuming elastic membranes and sticky inner surfaces, will be explored. 

Professor Stephen Hyde

Photonic bandages

In collaboration with Dr. Steve Lee from CECS, this project uses low coherence interference signals in an optical coherence tomography system for 3D imaging of porous materials.  The aim is to implant these materials for in vivo monitoring of the healing process of a wound.

Dr Jong Chow, Dr Roland Fleddermann

Protein structure: new topological methods

The notion of protein secondary and tertiary structure is a loose one, that deserves a deeper look. Some proteins are considered to be highly structured in their usual folded state, others lack well defined structures. We are interested in the basic question "what is structure in a folded protein chain"?

Professor Stephen Hyde

Clean Energy

Engineering in Physics

Fibre optic sensing arrays

This project has a strong industry focus and investigates using an array of fibre optic interferometers for acoustic sensing.  It relies on the ultra-sensitivity of these devices and the array's ability to triangulate the source of an acoustic signal to target a range of applications.

Dr Jong Chow, Dr Timothy Lam

Environmental Physics

Surface forces and the behaviour of colloidal systems

We measure the basic forces that operate between molecules that are manifest at interfaces. These forces control the stability of colloidal systems from blood to toothpaste. We use very sensitive techniques that are able to measure tiny forces with sub nanometer distance resolution. Understanding these forces enables us to predict how a huge variety of colloidal systems will behave.

Professor Vincent Craig


Nanobubbles are simply nanosized bubbles. What makes them interesting? Theory tells us they should dissolve in less than a second but they are stable for days. Additionally, they have lots of interesting properties being implicated in medical treatments and cleaning technologies.

Professor Vincent Craig

Fusion and Plasma Confinement

Most of the school curriculums around the world include such scientific subject as physics to help their students get the basic knowledge of ways the universe works. As the subject itself is very advanced, schools often offer only the introductory course that barely scratches the surface and significantly simplifies data. Teachers use a lot of examples from real life, show interesting videos, and conduct as many experiments and physics research as the school equipment allows them to in order to make the information more comprehensible. However, no matter how hard they try, most of the students still view the discipline as sorcery - only people with a natural talent and inborn abilities can understand. Very often, such students say, "I need help with my physics homework."

Therefore, when it comes to choosing the field to major in, the science is not the most common choice. Even those individuals who excel in physics at school have various doubts about gaining a further education in the sphere that intimidates even the most profound experts. Actually, this science is not as scary as people usually see it and with the right attitude, and a strong desire, anyone can become a physicist and learn how to write an effective physics CV. Although it is one of the oldest studies, and one of the most precise ones, the knowledge available to us is nothing comparing to things we have not understood or discovered yet. Findings bring a lot more questions than answers, making the science an immortal field and specialists in this area the most valuable ones as their contributions to the world and the evolution of humankind are priceless.

However, what is in it all for you as a student? What should you be prepared to if you choose a major in physics? It is crucial to find answers to these questions, and the first thing that will help you do it is the realization of what awaits you if you say 'yes' to pursuing a degree in the field. First of all, you will have to face the fact that in numerous universities, you will not be able to choose many of the classes on your own during the first two or three years as they will be fully devoted to studying the 'classics' and getting the fundamental knowledge. Such educational program gets students with any background to the same level, so if you have serious gaps or poor understanding of certain topics, you will have an opportunity to catch up. Also, it helps you realize what you actually like about the subject so that you can make a wise choice deciding on the subdisciplines you want to focus on further.

However, it is important to understand that you cannot come at the higher educational facility without having some bundle of knowledge. Mathematics is an absolute must-have in your arsenal, so if this is not the course you have shown your best in, it is necessary to make algebra, geometry, and trigonometry your best friends before the university makes them your worst enemies. The better you will be in math, the easier it will be to crack the course, as the more you will go into studies, the more math you will see and learn along the way. Understanding the basics, you will be able to comprehend that every complex formula is simple in the core and can be broken into small pieces you can easily solve, which will help you a lot throughout the university years.

During the studies, you will have to process tons of theoretical information and do a lot of reading on your own. Professors will give you huge lists of books, and you will have no choice but to go through them all. Even though it will take a massive amount of your free time, reading will help you grasp a lot more information from lectures and memorize the material better. The practical part of the classes will require you to work on different kinds of problems and complete various papers that will often make your brains boil. So brace yourself, as you will certainly find many assignments hard and there will be hundreds of them. However, you will get used to the workload with time, and there will always be someone you can count on when you need help with physics homework. is by your side 24/7 to provide you with an expert assistance and high-quality academic works, so no matter what kind of problems you face, be sure that our experts cover your back.

Getting into universities to have major in physics, students usually expect to conduct different experiments and solve advanced problems most of their time. Yes, these things surely take up a huge part of the curriculum, but so does the paperwork, which students rarely anticipate to be assigned so often. Mastering the science for essay writing makes no sense to them and is rather viewed as a waste of time and abilities. Nevertheless, paperwork is an important part of studies as it does help students develop numerous valuable skills, and no matter how you hate it, you will have to do it anyway. Also, as paper writing makes a significant part of your final grade, it is crucial to learn to deal with it professionally if you do not want to have problems with your professors. Here is Pro-Papers' personal pick on top seven tips for physics coursework paper writing that will make your homework a piece of cake.

  1. Read physics articles.
    The given science is a broad field that constantly advances as numerous scientists around the world are working hard to find answers to existing questions and solutions of current problems. Therefore, it is often hard to find a proper topic to research if you are not keeping abreast of all changes in the field. Gaps in different areas are closing and opening every day, and it is important to know which topics are still worth studying. Luckily, you can find a lot of information concerning these gaps in published physics reports, journals, and some books. They will not include all data regarding ongoing studies as some of the researches are kept secret, and others just have not been announced yet, but it will be helpful while looking for the topic anyway. Think of the area you want to focus on in your physics term paper, find suitable sources, make sure their authors are credible and try to get as much information as you can.
  2. Analyze sources.
    Even if you have found right sources, it does not mean it will be easy to find the topic. You will have to spend a decent amount of time looking through every physics dissertation and assessing what is written in each one. All studies have certain limitations, and you cannot ignore the fact that even such rational people as physicists can be biased. As researchers keep great documentation on studies, you will be able to find gaps or mistakes while reading, if you do it carefully. There can be something in calculations or even initial theory, so try not to miss details and assess the information critically. If you have found the topic you would like to work on, note that you may not be the first one to do it. Check whether someone else is studying the question and how he does it so that you can carry out an original research and approach the topic differently.
  3. Make necessary preparations.
    Needless to say, you have to scan as many sources as possible and make relevant experiments and calculations prior to going any further. These procedures are unique for each topic, so it is impossible to say how exactly you need to deal with them. However, you might need some physics case study help, and your professors are the ones to ask for it. They will not do all the work for you, so come up to them only if you have specific questions to ask. You may also consult them regarding the topic choice and the best ways to address things you want to discuss in your physics thesis. In case professors refuse to help you with any of the issues, you can always seek assistance elsewhere. If you are stuck with calculations, there is a lot of software and online programs that are free to use and can provide you with precise results. Other problems can be resolved with help of peers. Even though this is not the best and safest way to find answers, it is still useful and will, at least, let you push things along.
  4. Create a plan.
    Writing a physics essay offhand is not a very smart idea, especially if you do not know what parts your work should consist of. Thus, it is vital to create a plan, or rather an outline to understand precisely what to write about and where should each piece of information go to. Start with writing a thesis statement and decide how you will develop the idea presented in it throughout the paper. Sections you will most likely have to include are an introduction with a hook and background information on the topic, a literature review with inclusion and exclusion criteria for sources and their brief description, methodology, experiment details, calculations, or any other ways you have studied the main issue with, presentation of procedures and results, and conclusion with discussion of your findings. Put down a few sentences with short descriptions of these parts to keep the track of thoughts while writing; you are ready to begin.
  5. Mind the audience.
    Even though you are assigned a scientific paper and you should remain professional while writing, do not forget that your professor might not be the only one who will ever read it. You should definitely not spoon-feed the material to the audience, wasting the paper and time of expert reviewers, but it is paramount to make your work comprehensible and interesting for the wide range of readers. Add a glossary with definitions of terms: most people might find hard to understand, put some additional materials that helped you learn more about the topic to appendices and insert notes with explanations to the sections with calculations. You can also use visuals like graphs or tables to simplify the presentation of data. Although your paper will most likely be lengthy, there is no place for waffling, so make sure to cover only the information that has an actual value for the research. In case you are not sure that you are doing things right or you do not know how to do a term paper, then is at your service!
  6. Be precise.
    Physics is an exact science, so there is no place for random guesses and philosophical discussions. Thus, you have to do your best to make the research as precise as possible and use proven techniques to get reliable results. Use details to describe actions you undertake in order to conduct the research. If college physics homework help online is needed, you can look for online writing services where professional writers will find a solution for you. Analyze what kind of limitations the study might have had and share this information with your readers to let them know what should be improved in case someone decides to pick up where you left of. Although the math in the paper may be pretty accurate, deviations can never be put down to zero, but you surely can make them smaller by perfecting calculations. If you make any measurements, use units required by your facility or adhere to the international system.
  7. Check carefully.
    Reviewing the paper, even such as physics cover letter, before submitting it, make sure it fits the scientific standards first. Your experiments, calculations, theories, and suggestions, should be based on facts, exact data, measurements of the high precision, and peer-reviewed studies on the topic. The correctness of these things is the guarantee of your work's success, so be meticulous and analyze your research thoroughly. When you are done, it is crucial to check with academic standards. Pay attention to the formatting style, especially to the list of the works cited as each type of source should be presented in the special way determined by the official guidelines. Proofread the paper to make sure it is coherent, readable, and concise, and do not forget to correct grammar, punctuation, or spelling mistakes. The professor will send the paper back for the revision anyway, as teachers tend to be hypercritical when it comes to scientific studies, but it is up to you to make the list of things that should be made shorter, so do not miss the chance.

Even though these tips make a great step-by-step writing guide, physics papers are not easy to prepare, so you may stumble upon certain problems. However, have no worries; if you need physics homework solutions, is always ready to get you out of troubles. We have numerous specialists in different areas who can make the needed calculations. They will also help you conduct a literature review, organize your physics review letter, or work on any parts of the research. Therefore, do not let minor issues or time constraints stop you from crafting a top-notch work as there is nothing you cannot do with a team of expert-physicists helping you on the way. So, if you need online physics assignment help, rely on

If you are a school student working on physics assignment, you definitely understand how hard it is to start writing, especially when the topic is advanced and you have no idea where to begin. Thus, often, students realize they need to start working on the assignment when it is already too late, and there is no time to make a decent research or write something a professor will not toss away. You may find yourself facing the same issue thinking "how to buy my coursework elsewhere", and there is nothing to be ashamed of. However, you need to find the way out of the current situation that would not ruin your grades or make professors disappointed. Apparently, this is your lucky day as Pro-Papers has a perfect solution for your homework problems. Physics will be no more difficult subject for you!

If you are badly in need of a specialist who can write a quality paper before the deadline, you are in the right place. has a crew of experts who will gladly create an error and plagiarism-free work within the stipulated deadline, and make your teacher proud. Now, you do not have any necessity to possess such thoughts as "how to write a physics research paper." Thus, even if the time is failing you, we will not, so there is no need to wait. Place an order with us and receive an excellent physics resume at a reasonable price!

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