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نمایش نتایج: از شماره 41 تا 50 , از مجموع 138

موضوع: موقعیت‌های خالی در دانشگاه‌های خارج از کشور

  1. #41
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    Depth profiling of the glass transition dynamics and diffusion in ultra-thin polymer films using dielectric probes

    50000403v316
    Promoter: Michael Wübbenhorst

    details
    Description: Glass forming liquids show deviations from their cooperative bulk-dynamics (finite size effects) when they are geometrically confined to dimensions comparable to the intrinsic length of cooperativity. Ultra-thin polymer films represent an attractive system for the study of size effects on the glass transition dynamics because of large reported Tg-shifts (> 70 K) and the ease with which nm-thick samples can be prepared.

    This project aims to investigate the position dependence in the glass transition and related dynamics in ultrathin polymer films by employing “dielectric probes” or labels at specific depths in supported or freely-standing polymer films. Polymer films with a desired probe concentration profile will be achieved by assembling multilayers or, alternatively, by employing organic molecular beam deposition. Dielectric spectroscopy will be the principal technique to gather depth-specific dynamic information, which is complemented by structural investigations using ellipsometry and scanning probe techniques.
    The ultimate goal of the project is to relate experimental mobility profiles in terms of intrinsic dynamic length scales, specific polymer-interface interactions and polymer conformation issues.

    This position is related to the project “Depth profiling of the glass transition dynamics and diffusion in ultra-thin polymer films using dielectric probe techniques” and is open for a starting PhD student. The successful candidate should preferably have a Master degree in Physics, Applied Physics, Materials Science or Physical Chemistry.


    Key words: glass transition, polymer dynamics, ultrathin films, nanometer confinement, dielectric spectroscopy

    Latest application date: 2009-12-31

    Financing: available

    Type of Position: scholarship

    Duration of the Project : 4 years


    Research group: Department of Physics and Astronomy

    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

  2. #42
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    Exploration and exploitation of exotic physical phenomena for the efficient harvesting, storage, release and transformation of thermal solar energy

    50000403v1649
    Promoter: Christ Glorieux

    details
    Description: Except for nuclear technology based approaches, basically all existing energy harvesting techniques exploit the abundant energy supplied by the sun. The synthesis millions of years ago by natural processes of highly energetic complex molecules in biological materials and fuels that are combusted today was directly or indirectly based on solar energy. Nowadays, photovoltaic solar cells are converting a fraction of all available solar energy directly into electric power. A major obstacle with respect to the exploitation of solar energy is that, contrary to electric energy, it’s most abundant form, i.e. solar heat, is often not available at the right place (close to the user) on the right time. Also, the temperature of most naturally heated objects lies below 80C, making it not efficient to convert their thermal energy into e.g. mechanical energy. This project puts focus on the physics behind and efficiency improvement of heat harvesting, heat storage and heat release, and of the use of advanced thermal conductivity switches for improved magnetocaloric heat pumping and thermoelectric and pyroelectric energy harvesting. The research involves the design and implementation of physics experiments, theoretical and modelling and numerical simulation of the physical phenomena involved, and data processing.

    Key words: thermal energy, thermoelectric, pyroelectric, energy harvesting, phase change materials, thermal conductivity switches,

    Latest application date: 2009-12-31

    Financing: iro-scholarship

    Type of Position: scholarship

    Source of Funding: K.U. Leuven IRO funding

    Duration of the Project : 4 years


    Research group: Department of Physics and Astronomy

    Remarks: Candidates should hold a diploma of Master Physics. Their application must contain a detailed overview of all courses, contents (e.g. book and list of contents) taken during the Bachelor and Master Physics years, as well of the marks received for those courses. Based on this list, the contents of a possible pre-doctoral study year (courses + pre-doc thesis) will be decided.
    Candidates should fluently speak English, have a fresh and thorough knowledge of physics and mathematical physics, and have excellent (Matlab) programming skills.

    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

  3. #43
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    “Vortex matter in two-component nano-superconductors”


    details
    Description: This research will be carried out in the framework of the METHUSALEM NANO Programme.
    We shall investigate nanostructured single-component (reference system, low-Tc superconductors) and two-component superconductors with antidot lattices of different geometries and sizes. Moreover, the two-component superconductivity will be modelled by using the S1/S2 bi-layers where S1 and S2 are two superconductors with different coherence lengths and the London penetration depths. For that purpose Al/Pb, Al/Nb bi-layers will be used. The recent theoretical predictions of the non-composite vortex state will be experimentally verified. We shall fabricate antidot lattices by using modern techniques (e-beam lithography, in collaboration with IMEC, self-assembly, self-organized templates). Integrated response techniques, advanced local techniques with nanoscale resolution and state-of-the-art simulation and modeling of confined condensate and flux as well as their dynamics in different artificially nanoengineered confined geometries will be used to reveal novel phenomena appearing in nanostructured two-component superconductors.

    Key words: fluxonics, superconductivity, nanostructures

    Latest application date: 2009-11-10

    Financing: available

    Type of Position: scholarship

    Source of Funding: This PhD research will be funded by the Methusalem NANO Programme

    Duration of the Project : 4 years


    Research group: Department of Physics and Astronomy

    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

  4. #44
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    Magnetic nanophotonics”

    50000403v1266
    Promoter: Victor Moshchalkov and Koen Clays

    details
    Description: This research will be carried out in the framework of the METHUSALEM NANO Programme.

    In quantum dots the photoluminescence (PL) is governed by the electron-hole recombination of excited charge carriers. This process will be probed and fine tuned by using external magnetic field, which “changes the colour” of the emission (blue shift of the PL line). We shall investigate confinement effects on magneto PL in quantum dots of different shape and sizes made from different materials. To enhance the optical output, we shall use nanomodulated metallic films placed on top of the planar structures containing quantum dots. One of the key experiments will be time-resolved magneto-photoluminescence and application of non-linear optical techniques. Enhanced PL using metallic nanostructures (“optical nanoantennas”) in close vicinity with nanostructures will also be investigated, including metal nanoparticles coated by polythiophene. Selective enhancement of the optical radiation at specific locations of plasmonic metallic nanoparticles will be probed by the photonic STM. This enhancement will be used for developing bright markers for bioimaging and bio- and chemical sensing as well as for boosting the efficiency of photovoltaic systems through plasmonics effects in incorporated metallic nanograins.



    Key words: nanophotonics, high magnetic fields, nanostructures

    Latest application date: 2009-11-10

    Financing: available

    Type of Position: scholarship

    Source of Funding: This PhD research will be funded by the Methusalem NANO Programme.

    Duration of the Project : 4 years


    Research group: Department of Physics and Astronomy

    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

  5. #45
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    Development of polymer electrolytes for PEMFC (IRO scholarship)

    50000403v1569
    Promoter: Jean-Pierre Locquet

    details
    Description: A gas fed battery that never needs recharging!
    The fuel cell promises to deliver clean and efficient power by combining hydrogen and oxygen in a simple electrochemical device that directly converts chemical energy to electrical energy. Among various types of fuel cell PEM (proton exchange membrane) fuel cells promise to be an efficient one since it has an immobilized electrolyte membrane there is simplication in the production process that in turn reduces corrosion, provides longer stack life [1]. While many breakthroughs have been made over the past few years, both technical and economic barriers for PEMFC commercialization still exist. The most important materials under development for PEMFC stacks are construction materials for the cell frames, bipolar plates, electrocatalysts for the fuel and air electrode, and the ion conducting membrane [2]. In particular, much effort is being focused on the development of new membranes for PEMFC’s with improved performance and durability.
    So the goal of the present work is to find a suitable polymer membrane with high proton conductivity, good mechanical, chemical and thermal strength and low gas permeability. The second approach is to improve the electrical performance of polymer membranes at T>100°C and low relative humidity by preparing new complexes with the ionic liquids. Due to its desirable properties such as high mechanical strength, good chemical stability, and high ionic conductivity under high-humidity conditions Nafion membrane will be focused for this research project. Later polymer electrolytes will be complexed with ionic liquids based on phosphonium cation because of its enhanced chemical stability under varied conditions, more thermal stability than ammonium and imidazolium salts and less expensive.


    Key words: Fuel Cell, electrolyte

    Latest application date: 2009-12-31

    Financing: iro-scholarship

    Type of Position: scholarship

    Duration of the Project : 4 years


    Research group: Department of Physics and Astronomy


    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

  6. #46
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    Development of Polymer electrolytes for PEMFC (IRO project)

    50000403v1650
    Promoter: Jean-Pierre Locquet

    details
    Description: A gas fed battery that never needs recharging!
    The fuel cell promises to deliver clean and efficient power by combining hydrogen and oxygen in a simple electrochemical device that directly converts chemical energy to electrical energy. Among various types of fuel cell PEM (proton exchange membrane) fuel cells promise to be an efficient one since it has an immobilized electrolyte membrane there is simplication in the production process that in turn reduces corrosion, provides longer stack life [1]. While many breakthroughs have been made over the past few years, both technical and economic barriers for PEMFC commercialization still exist. The most important materials under development for PEMFC stacks are construction materials for the cell frames, bipolar plates, electrocatalysts for the fuel and air electrode, and the ion conducting membrane [2]. In particular, much effort is being focused on the development of new membranes for PEMFC’s with improved performance and durability.
    So the goal of the present work is to find a suitable polymer membrane with high proton conductivity, good mechanical, chemical and thermal strength and low gas permeability. The second approach is to improve the electrical performance of polymer membranes at T>100°C and low relative humidity by preparing new complexes with the ionic liquids. Due to its desirable properties such as high mechanical strength, good chemical stability, and high ionic conductivity under high-humidity conditions Nafion membrane will be focused for this research project. Later polymer electrolytes will be complexed with ionic liquids based on phosphonium cation because of its enhanced chemical stability under varied conditions, more thermal stability than ammonium and imidazolium salts and less expensive.
    [1] EG&G Services. Fuel Cell Handbook. Parsons, Inc., Morgantown,West Virginiak, 2000.
    [2] Brian C.H. Steele, Angelika heinzel Materials for fuel-cell technologies Nature 414, 345-352 (2001)


    Key words: Fuel cells, membrane technology

    Latest application date: 2009-12-31

    Financing: iro-scholarship

    Type of Position: scholarship

    Source of Funding: IRO scholarship

    Duration of the Project : 4 years


    Research group: Department of Physics and Astronomy

    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

  7. #47

    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    نقل قول نوشته اصلی توسط nima56 نمایش پست ها
    Position related to the project 'Magnetic spin structures at the nanometer scale'

    50000403v1463
    Promoter: Kristiaan Temst, André Vantomme

    details
    Description: The aim is to perform fundamental research in preparation of a PhD degree in the domain of nuclear solid-state physics at the nanometer scale. In this project the influence of magnetic ordering in thin films and nanostructures on the electronic transport and the coupling between films with different magnetic properties is studied. Physical vapour deposition and ion beam techniques in the IMBL laboratory will be used for sample preparation, while magnetoresistance and hyperfine interactions will be used for the study of the magnetic properties. Additional experiments are forseen in synchrotron and neutron beam facilities (ESRF and ILL, Grenoble)

    Key words:

    Latest application date: 2009-12-31

    Financing: available

    Type of Position: scholarship or salary

    Source of Funding: K.U. Leuven FLOF or K.U. Leuven AAP

    Duration of the Project : 4 years


    Research group: Department of Physics and Astronomy

    Remarks: The candidates are expected to be Dutch speaking.

    I am not sure if any body can get Visa From Iran for this field of research as it is in Nuclear and cyclotheron physics post, but if any body is now out of iran or has a nother nationality he/she can apply.try not to get a reject application in your file i suggest to apply this kind of field as a final choice and any thing that related to Fusion and Nuclear things.
    but the other positions that dear friend NIMA has written here are very good to apply and work on it too. so thank you Nima for your links and regards
    Good Luck
    شب سردي است، و من افسرده. راه دوري است، و پايي خسته. تيرگي هست و چراغي مرده. مي کنم تنها از جاده عبور: دور ماندند ز من ادمها. سايه اي از سر ديوار گذشت، غمي افزود مرا بر غمها. فکر تاريکي و اين ويراني بي خبر آمد تا با دل من قصه ها ساز کند پنهاني. نيست رنگي تا بگويد با من اندکي صبر سحر نزديک است. هر دم

  8. #48
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    نقل قول نوشته اصلی توسط nafas نمایش پست ها
    I am not sure if any body can get Visa From Iran for this field of research as it is in Nuclear and cyclotheron physics post, but if any body is now out of iran or has a nother nationality he/she can apply.try not to get a reject application in your file i suggest to apply this kind of field as a final choice and any thing that related to Fusion and Nuclear things.
    but the other positions that dear friend NIMA has written here are very good to apply and work on it too. so thank you Nima for your links and regards
    Good Luck
    Dear nafas
    Thank you .I just tried to inform other friends to possible vacant positions maybe useful for them and it is enough for me to change the future of atleast one of them
    Best regards
    Nima
    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

  9. #49

    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    بچه های فیزیک و برق که علاقمند هستید در زمینه لیزر-پزشکی کار کنید به سایت مربوط به استاد زیر مراجعه کنید یا به ایمیلش رزومه خودتون رو بفرستید. من قبلا با این استاد تماس گرفته بودم ولی تصمیم گرفتم به دانشگاه کلگری برم و بعدش این استاد از من خواست اگه دانشجوی دیگه ای از ایران (که تجربه در این زمینه داره) و میخواد در این زمینه کار کنه بهش معرفی کنم:
    Dr. Arkady Major
    Assistant Professor
    major@cc.umanitoba.ca

    راستی این استاد در دانشگاه monitoba و دانشکده برق کار میکنه و هم دانشجوهای فیزیک و هم برق رو میگیره.
    موفق باشید
       

  10. #50
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    پیش فرض پاسخ : موقعیت‌های خالی در دانشگاه‌های خارج از کشور

    PhD Student Position in Theoretical Few-body Physics in support of the European (ERC-StG) Project ANSR


    Reference number 2009/129
    Apply for this job
    Application deadline 2009-10-31
    The Department of Fundamental physics invites applications for a phd student position in theoretical few-body physics in support of the European ERC-StG project ANSR (Ab initio approach to nuclear structure and reactions++).

    Job description
    The ANSR project aims at developing microscopic approaches to study strongly-interacting few-body systems. Our methodology is computational, quantum many-body theory, and the main focus is on addressing contemporary problems in low-energy nuclear physics. However, the formalism and techniques are sufficiently general to be adapted for tackling related problems in other subfields of the physical sciences. Two principal avenues for groundbreaking research under the umbrella of the ANSR project have been identified: (1) Developing a unified ab initio theory of nuclear structure and reactions; and (2) Adapting existing nuclear-physics, many-body techniques to study other strongly correlated quantum many-body systems. In particular, the method of effective interactions will be used to model few-body systems of ultracold atoms obeying either bosonic or fermionic statistics. The successful candidate is expected to work on one of these two research avenues.
    This position is funded by the European Commission via the grant ERC-StG ANSR. The successful candidate will benefit from existing and productive scientific collaborations with researchers in Europe and the U.S. The computations within the ANSR project will be performed on local (linux cluster), national (SNIC) and U.S. (NERSC) supercomputer centres.
    Qualifications
    Applicants should have a M.Sc. degree in Physics, Applied Mathematics, or a related field. The scientific interest of the candidates should be within theoretical physics, quantum few-body systems and computational physics.
    As a PhD student you will perform research, take PhD courses and participate in undergraduate education. The objective of a PhD student position is to obtain a PhD degree, with the intermediate goal to obtain the degree of Licentiate of Engineering after about two years. The total time period for the position is limited to five years.
    Application procedure

    The application shall be written in English and include the following items:
    1. An application of a maximum of one A4 page containing your specific qualifications for the position
    2. Attested copies of education certificates, including grade reports and other documents
    3. Curriculum Vitae
    4. Letters of recommendation and name of reference persons (optional)
    The application shall be sent electronically as pdf or zipped documents. Please use the button at the foot of the page to reach the application form.
    If any material is not available electronically or cannot be transferred to pdf format, the material can be sent as a hard copy to Registrar. The applicants name and the reference number (2009/129) must be written on the first page of the application.
    Address:
    Registrar
    Chalmers University of Technology
    SE-412 96 Göteborg
    Sweden
    Further information
    Additional information can be found at (http://www.chalmers.se/fp).

    Additional information concerning the project may be obtained from Dr Christian Forssén, christian.forssen@chalmers.se
    Union representatives

    • SACO: Jan Lindér
    • ST: Marie Wenander
    • SEKO: Johan Persson
    Du når representanterna via Chalmers växel: 031 -772 10 00
    روزگار است، آنكه گه عزت دهد گه خوار دارد. چرخ بازيگر از اين بازيچه ها بسيار دارد. "قائم مقام فراهانی"

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