Doctorate Degrees in Applied Physics

Compare 6 PhD Programs in Applied Physics

A PhD is a degree you can earn that involves highly advanced academic work. This program involves at least three years, but sometimes more, of independent research on a creative and original topic. It is the highest academic degree you can attain.

You may have asked yourself, what is a PhD in Applied Physics? This is a highly esteemed program that is research oriented and works to meet the needs and interests of the individual. Courses you can expect to take include topics in classical physics, quantum mechanics, elements of quantum chemistry, solid-state physics, fluid mechanics, plasma physics, electromagnetic theory and countless others.

To study this, you should have an endless curiosity to discover how things work and then apply your knowledge to practice. This is valuable to apply to your own life as well, so you can continue to discover more about the world you live in.

When it comes to costs and tuition, these things vary based on how long the program is, what country you are attending school in and which school you select. Every program is different, so to get a better idea of this, you must first choose where you will attend.

The goal of this program is to help students evaluate and consider the many research opportunities they have before they decide to specialize in an area. Once you complete it, you can discover the many career opportunities available to you, like as research scientist, space and astronomy physicist, healthcare physicist, engineering, energy physicist, geophysics, and meteorology. You can even find roles in manufacturing, teaching, architecture and communications.

Getting a PhD can help you get better job positions and earn a higher salary, so you can live a better life. You can earn your degree online or in class and can do so internationally. To learn more, search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.

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PhD in Multidimensional Complex Analysis

Siberian Federal University
Campus Full time 4 years September 2017 Russia Krasnoyarsk

Research in multidimensional complex analysis at Siberian Federal University is about several topics. The overarching theme is the interaction between complex analysis and other areas of mathematics and physics. [+]

PhDs in Applied Physics. Research in multidimensional complex analysis at Siberian Federal University is about several topics. The overarching theme is the interaction between complex analysis and other areas of mathematics and physics. For example, methods and techniques of functional analysis are applied to the study of PDEs in domains of complex space. Algebraic geometry plays an important role in the study of distribution of complex algebraic and analytic sets and its applications in physics. Alternatively, analytic methods are used in the theory of algebraic and hypergeometric functions, in the description of the structure of discriminantal sets. Other examples include the study of multidimensional difference equations, analytic continuation of functions and sets. Programme Leader Professor Tsikh worked at the universities of Stockholm, Bordeaux, Berlin, Calabria (Italy), Armidel (Australia), Max Planck Institute in Bonn, Institut Mittag-Leffler in Stockholm. Research interests: complex analysis, algebraic geometry, tropical geometry, signal processing, math- ematical physics (superstring theory, thermodynamics) Entry requirements: Master’s degree (or equivalent) in Mathematics, Physics, or Computer Science; desired qualifications: good knowledge of mathematical analysis; an adequate level of English proficiency (certificate or other document) Apply to The Centre for International Education and Certified Testing for a certificate if you do not have it, the Russian language preparatory course is available. Accommodation: On-campus accommodation is available: single ensuite room 45 € per month, twin ensuite room 30 € per month. Practicalities: Airport transfer, invitation letter for a Russian study visa and an optional survival course of Russian as a foreign language are provided by the University. Research Professor Ari Laptev (Imperial College London, KTH, Institut Mittag-Leffler) leads the university team to develop academic research and expertise at the laboratory of complex analysis and differential equations. The research project is supported by the Government of the Russian Federation. Curriculum BASIC COURSES Complex and Functional Analysis 5 (180) Current Problems in Mathematics 5 (180) Algebraic geometry 5 (180) ELECTIVES Processing of experimental data 3 (108) Methodology of PhD Thesis Preparation 3 (108) Academic English 3 (108) Basic English 3 (108) Russian (fee will apply) 3 (108) [-]

PhD in Biophysics

Siberian Federal University
Campus Full time 4 years September 2017 Russia Krasnoyarsk

Doctoral students do research at the Bioluminescent Biotechnology Laboratory under the supervision of Professor Valentina Kratasyuk. [+]

Doctoral students do research at the Bioluminescent Biotechnology Laboratory under the supervision of Professor Valentina Kratasyuk. Their research focuses on studying the chemical nature of light emission by luminous bacteria and other luminous species, modeling the enzyme metabolism in cell hyaloplasm, developing new generations of bioluminescent biosensors for environmental monitoring and medical diagnostics and other issues of bioluminescence research. Programme Leader Professor Valentina Kratasyuk’s research interests are mechanisms of bioluminescence, bioluminescent enzymatic biosensors, enzymatic toxicity bioassays, bioluminescent analysis, biotechnological design, biochemistry, science education, history of sciences, immobi- lization of enzymes. Entry requirements: Master’s degree in Biophysics, Biology, Biological Engineering, Physics, Ecology, Biochemistry, Chemistry, Bioinformatics, an adequate level of English proficiency (certificate or other document) Accommodation: On-campus accommodation is available: single ensuite room 45 € per month, twin ensuite room 30 € per month. Practicalities: Airport transfer, invitation letter for a Russian study visa and an optional survival course of Russian as a foreign language are provided by the University. Curriculum BASIC COURSES Problems of Modern Biophysics 2 (72) Biophysics 2 (72) ELECTIVES Processing of experimental data 3 (108) Methodology of PhD Thesis Preparation 3 (108) Academic English 3 (108) Basic English 3 (108) Russian (fee will apply) 3 (108) [-]

PhD in Astronomy

Northern Arizona University
Campus Full time August 2017 USA Flagstaff

The Department of Physics and Astronomy at Northern Arizona University (NAU) will launch a new PhD program in Astronomy and Planetary Science in the Fall of 2016. The Department is now recruiting new faculty members and PhD students. [+]

PhDs in Applied Physics. The Department of Physics and Astronomy at Northern Arizona University (NAU) will launch a new PhD program in Astronomy and Planetary Science in the Fall of 2016. The Department is now recruiting new faculty members and PhD students. Current and Future Faculty Expertise Current faculty members use ground-based and space-based telescopes to study small bodies in the Solar System and the formation and evolution of other planetary systems; spacecraft imagery to study planetary surfaces; and a state-of-the-art laboratory to study astrophysical ice analogs. NAU faculty members have close research collaborations with scientists at local institutions including Lowell Observatory, the United States Geological Survey (USGS) Astrogeology Science Center, and the United States Naval Observatory. In the next few years, the Department will hire tenure-track faculty members with expertise in exoplanet science, astro-chemistry, astro-informatics, astronomical instrumentation, and observational astronomy specializing in Solar System objects, exoplanets, or related topics. Superb Access To Large Telescopes Faculty members and their PhD students have full competitive access to facilities run by the University of Arizona including the 2 x 8.4-meter Large Binocular Telescope, 6.5-meter Magellan Telescopes, 6.5-meter MMT telescope, 2.3-meter Bok telescope 1.8-meter Vatican Advanced Technology Telescope, and the 1.5-meter Kuiper Telescope. NAU researches have access to the 4.3-meter Discovery Channel Telescope, 1.8 Perkins telescope, and 0.8-meter NURO telescope through partnerships with Lowell Observatory. Faculty and students also have access to the 0.5-meter Lutz telescope on the NAU campus. Curriculum PhD students in the program will build skills and knowledge through formal class work and an original research project. Students will take ten core classes during their first two years in the program. Five of the core classes will focus on the development of essential skills PhD astronomers and planetary scientists need upon entering the workforce in an academic or industrial setting (instrument design and fabrication, optical design, computational physics, big data, and techniques of observational astronomy). Five classes will focus on advanced topics in astronomy and planetary science that students need for a solid foundation upon which to build their own postdoctoral research (formation and evolution of solar systems, atmospheres, interiors, and surfaces of planetary bodies, astro-chemistry, exoplanet science, and special topics). Students will perform their own original research, write a dissertation, and make an oral, public presentation of their results. In the original research component, students will learn how to collect and analyze data, write up their results, and communicate their results to others in a manner consistent with professional standards in the astronomical and planetary science communities. Financial Support All students in the program will receive full-tuition waivers, a stipend as either a graduate teaching assistant or a graduate research assistant, and health insurance. Generally, students will be supported as teaching assistants in introductory physics and/or astronomy labs during their first two years as then as research assistants after advancing to PhD candidacy. Campus Northern Arizona University is a 26,000-student institution with its main campus in Flagstaff, a four-season community of about 67,000 at an elevation of 7,000 ft at the base of the majestic San Francisco Peaks. Opportunities for outdoor activities such as hiking, camping, rock climbing, skiing, and snowboarding abound. Admission Requirements and Procedure To be considered for admission, students must complete and submit the online application form at the Graduate College Admissions website and click on the Apply Now link. Please follow the directions and submit all materials online. Be sure to select Doctoral Degree and Astronomy and Planetary Science. Your online application must include: A statement of interest describing why you are applying to NAU as well as your professional interests and goals; A scientific/technical writing sample such as a senior thesis, MS thesis, major class paper or professional report demonstrating your analytical and writing skills; Three letters of recommendation of which two should be from faculty members. Scores from the general GRE are required; the Physics GRE is recommended. All materials should be submitted through the online application site. Please note that this program does not appear in the current (2015-2016) academic catalog. But if you start an application to the Graduate Colleqe, it will appear as an option. Successful applicants will usually have a bachelor's or Master's degree in Physics, Astronomy, Chemistry, or a related field with a 3.0 GPA or above. Evaluation of applications for Fall admission will begin after January 15 of that year. Financial aid awards in the form of Graduate Teaching Assistantships will be selected in April. [-]

Doctoral Programme in Science (Technology)

Aalto University
Campus Full time Part time August 2017 Finland Espoo + 1 more

The goal of the programme is to train doctors in physics, mathematics, biomedical engineering, computer science and industrial engineering and management to serve in the academic world, public sector and industry and commerce. [+]

The goal of the programme is to train doctors in physics, mathematics, biomedical engineering, computer science and industrial engineering and management to serve in the academic world, public sector and industry and commerce. Doctors graduating from Aalto Doctoral Programme in Science have what it takes to serve in demanding academic research and teaching positions and in expert, development and management positions of the information society. The departments, which are in charge of doctoral education at the School of Science, offer research fields that are based on strong research traditions and research at the highest international level. At the moment there are four Centres of Excellence in Research at the departments of the School of Science designated by the Academy of Finland. The School of Science is also very active in the national Doctoral Education Networks. What can you study? Aalto Doctoral Programme in Science offers the degree of Doctor of Science (Technology) in one of the following departments and their research fields: Department of Applied Physics Department of Computer Science Department of Industrial Engineering and Management Department of Mathematics and Systems Analysis Department of Neuroscience and Biomedical Engineering Graduate as doctor in four years Doctoral education at the School of Science is based on vigorous basic research that forms a strong basis for teaching and both development and innovation activities. The most important part of the education is writing the dissertation in a strong research milieu. The theoretical studies that support the thesis work are tailored individually to suit the different needs of each doctoral student. The dissertations of the School of Science are of very high quality and often contain articles published in publications of the highest international level. Full-time students can complete the doctoral degree in four years. The most talented students may apply for funding from their department or they may fund their studies through projects. The students should discuss funding primarily with their supervising professor. International studying environment Internationality is an integral part of the School’s doctoral education in both recruiting and educating doctoral students. The School of Science is well connected with several top-level universities and research institutes in its field. Aalto University encourages its doctoral students to spend at least six months of their study time abroad. International mobility enhances doctoral students’ career possibilities. Visiting a foreign university or research institute often means sharing knowledge and know-how, creating new ideas, expanding international networks, and developing one’s professional skills. Working life and doctoral degree 40% of all doctors graduated from Aalto University come from the Aalto Doctoral Programme in Science. Those that have graduated from the Doctoral Programme have positions in the academic world, the public sector or in the industry and commerce. [-]

Doctor of Philosophy in Earth and Planetary Science

Macau University of Science and Technology (MUST)
Campus Full time 6 years November 2017 Macau

The establishment of Space Science Institute (SSI) in Macau University of Science and Technology is based on the research background of the university and is adapted to the space exploration research that has been developed very fast in the world in recent years. The objectives of SSI are the innovative research on lunar and planetary science as well as the popularization of the research achievements to the Macao society. [+]

PhDs in Applied Physics. Recently, the research of SSI will focus on the following topics: research on Lunar exploration, research on Mars and other planetary exploration and research on near earth asteroids. There are a few of full time research staffs in this Institute. The faculty members in Faculty of Information Technology and General Studied in MUST will join the research as well. Supported by STDF in Macao, we have already finished 3 projects in the past years. They are: 1. Pre-study of the Effective Load of gamma/X Ray Spectrometer for Moon Exploration. 2. The processing, analysis, application and research on the exploration data of Chang’e-1. 3. Research on instrument to detect the minor water on the lunar surface and the methods to analyze nuclear spectrum. In the mean time, there are three ongoing projects in SSI, all these projects are supported by STDF in Macao. 1. Astronomical observations and space exploration of solar system small bodies. 2. Retrieving the compositions of the Lunar surface with Chang’E-1 IIM data. 3. Research on digital Lunar Topography, component analysis and space plasma environment near the moon based on Chang’e-2 Exploration data. [-]

Doctor of Philosophy in Science

Macau University of Science and Technology (MUST)
Campus Full time 5 years November 2017 Macau

Our curricula are based on a solid foundation with a balanced coverage of theory and practice, and undergo frequent update to keep the content current. we have also been gradually increasing the use of English as the medium of instruction. Our mission is to train students to become IT professionals who are hardworking, responsible, and good team players, with the skills and capabilities to contribute to the development of our local and regional societies, and to be able to survive in the increasingly competitive global market. At FIT, students will not only gain knowledge but more importantly understand the principles and importance of life-long learning. [+]

Doctor of Philosophy in Science Computer Technology and Application This major provides training for students to become high-level researchers in the area of computer technology and application. We provide high-quality courses in selected topics in computer technology, training students to master the research methods in computer technology. This major will solidate their foundation for conducting research in field of computer technology. Graduates should propose innovative ideas or publish innovative research results on a specialized topic. Electronic Information Technology This major provides training for students to become high-level researchers in the area of electronic information technology. We provide high-quality courses in selected topics in electronic information technology, training students to master the research methods in electronic information technology. This major will solidate their foundation for conducting research in the field of electronic information technology.Graduates should propose innovative ideas or publish innovative research results on a specialized topic. Space Information Technology Space information technology is a multidisciplinary major of information technology and space science. This major provides training for students to become high-level researchers in the area of space information technology. We provide high-quality courses in selected topics in information technology and space science, training students to master the research methods for analyzing of space science data. This major will solidate their foundation for conducting research in the field of space information technology.Graduates should propose innovative ideas or publish innovative research results on a specialized topic. For Curriculum details, please refer to: http://www.must.edu.mo/en/fi-en/programme/doctoral-degree-programme/study-plan [-]