PhD Studentship - Design and Mission Analysis of Femtosatellites - University of Glasgow

13.12.08 |

PhD Studentship

"Design and Mission Analysis of Femtosatellites"

Space Advanced Research Team, Department of Aerospace Engineering

The Space Advanced Research Team at the University of Glasgow is currently seeking a PhD student to investigate the "Design and Mission Analysis of Femtosatellites"

The project consists of the design and development of femto-satellites with a volume of 1 cm x 1 cm x 1 cm and a weight of approximately 10 grams. These very tiny satellites are expected to be mainly made of stacked silicon microchips. Some microchips will be responsible for very specific tasks necessary for the survival of the mission (for example, communication, attitude control, etc.), whereas other microchips will form the scientific payload (for example, embedded microcameras, radiation detectors, etc.) These femto-satellites have the potential to drastically lower the costs of space missions and increase the frequency of the launches. Furthermore, the possibility of having a huge number of femto-satellites (more than 1,000) at a reasonable manufacturing price (less than £200 each) will increase the overall mission reliability (losing some of them will not jeopardize the overall mission objectives). It will also allow the conception of new mission scenarios and the assembly of large structures in space consisting of thousands of small elements (for example, interferometric antenna arrays, synthetic aperture radars, etc.) The doctoral student selected for this project will have to take into account not only the design trade-offs of present microelectronic technology, but also the mission design and analysis trade-offs applicable to space applications. In this process, it is expected that the doctoral student will be able to produce some advances in the state-of-the-art of this interdisciplinary field of research since the present design rules of small satellites cannot be directly applied to the design and development of femto-satellites due to the severe constraints in size and power consumption.

The PhD candidate for this post will hold an upper 1st class degree in either aerospace engineering or electrical & electronics engineering. The successful applicant will have good analytical and modelling skills, and good knowledge of microprocessors and/or space mission analysis and design. Enthusiasm and determination in exploring original ideas as well as good team spirit are desirable qualities of the successful candidate. A very good spoken and written English is essential.

Each Scholarship will run for 4 years, cover all tuition fees (EU or overseas) and provide the successful student with a stipend at the Research Council recommended rates (£12,940 for 2008/09). On top of this the project benefits from £5,300 per year research costs.

The project will start between January 2009 and April 2009.

In the first instance the documentation submitted by the applicant will include a cover letter detailing why you wish to be considered for the post and how your skills fit the proposed research, a curriculum vitae, a list of publications and the name and address of two referees willing to submit a confidential reference.

Informal enquiries and applications should be sent to Dr Gianmarco Radice, Department of Aerospace Engineering, University of Glasgow, Glasgow, G12 8QQ, UK. Tel: +44-(0)141-3304068. Email: gradice@aero.gla.ac.uk

Note that unsuccessful but nevertheless outstanding candidates may be considered for other scholarships with a start date of October 2009.

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Vacant positions at KTH Stockholm, Sweden

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Vacant positions at KTH

PhD in Electronic Systems Design
Ph.D. position in Polymer Technology
Doctoral student in electrical machines and drives
Ph.D. Position in Approximability
PhD Student in Internal Combustion Engines
Openings for 4 Ph.D. Students at Automatic Control Laboratory
PhD Positions in Astrophysical Dynamos

http://www.kth.se/om/2.1445?l=en_UK
http://www.ee.kth.se/php/index.php?action=openpos&cmd=listopenpos

9 PhD Positions at Uppsala University, Sweden

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http://www.personalavd.uu.se/ledigaplatser/engindex.html#PhDstudents

PhD position in Complex Metal and Semiconductor Nanoclusters,
stationed at MAX-lab Lund
at the Department of Physics and Materials Science
Application no later than December 16, 2008. UFV-PA 2008/3086

PhD position in Medical Science
at the Department of Medical Sciences
Application no later than December 17, 2008. UFV-PA 2008/2627

PhD position in Neuroscience within the subject of mechanisms of
improved stress tolerance and welfare of farmed fish
at the Department of Neuroscience
Application no later than December 15, 2008. UFV-PA 2008/2928

PhD student
at the Department of Physics and Materials Science
Application no alter than January 30, 2009. UFV-PA 2008/3000
Extended date of application

PhD position within the IceCube project
at the Department of Physics and Astronomy
Application no later than January 15, 2009. UFV-PA 2008/2838

PhD positions in theoretical physics, especially string theory
at the Department of Physics and Astronomy
Application no later than January 15, 2009. UFV-PA 2008/2833

PhD position in organic chemistry - organic nanochemistry and
graphene
at the Department of biochemistry and organic chemistry
Application no later than December 15, 2008. UFV-PA 2008/2859

PhD position in microbial ecology
at the Department of ecology and evolution
Application no later than January 7, 2009. UFV-PA 2008/2947

PhD student in nuclear physics with emphasis on experimental hadron
physics
at the Department of Physics and Astronomy
Application no later than December 15, 2008. UFV-PA 2008/2741

PhD Position in Geography, University of Zurich, Switzerland

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website link:
http://www.geo.uzh.ch/~stgruber/PhD_CRYOSUB_UZH.pdf

PhD studentship
Glaciology, Geomorphodynamics and Geochronology
Department of Geography
University of Zurich, Switzerland

We are seeking a PhD candidate for the project CRYOSUB: Mountain
Cryosphere Subgrid Parameterization and Computation, starting 1 March
or 1 April 2009.
The expected outcome of this project is a method that allows for
continental-scale modeling of permafrost, snow and glacier mass
balance in mountain areas under present and simulated future climate.
This is important because the mountain cryosphere influences a large
proportion of the global land mass and population, experiences high
rates of climate change and is currently inadequately resolved in
regional climate models due to the dominating influence of sub-grid
variability. This project will provide a proof of concept for the
inclusion of topography sub-grid schemes into climate models as well
as applications of mountain cryosphere models over large mountain ranges.
Applicants are required to have successfully completed a Masters level
degree in a relevant area, e.g., Climatology, Meteorology, Computer
Science, Mathematics, Physics, Computational Geography or Earth
Sciences. Programming skills (low level such as C/FORTRAN and high
level such as Matlab/IDL) and experience with GIS are important
assets. You have a very good standard of written and spoken English
and will be working in a heterogeneous and multi-disciplinary
environment. Mountaineering skills are welcome. You will receive the
standard PhD salary according to the Swiss National Science Foundation.
Curriculum Vitae, transcripts and contact details (including e-mail
addresses and phone numbers) for two references should be sent with
your letter of application to:

Dr. Stephan Gruber
Department of Geography
University of Zurich-Irchel
Winterthurerstrasse 190
8057 Zurich, Switzerland
stephan.gruber@geo.uzh.ch

Reviews of applications will commence on 1 February 2009.

6 PhD Positions in Geology at Lulea TU, Sweden

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The Division of Applied Geology is looking for 6 new PhD-students.

Research and education at the Division of Applied Geology is mainly
focused on Environmental Geochemistry. Basic research is combined
with applied projects. The philosophy is that being in the front of
basic research gives a favourable development of methods and skills
useful and necessary in applied research. The applied research aims
at studying and quantifying pollution effects from different
anthropogenic sources, and possible methods to decrease the release
of pollutants and to limit their deleterious effects.

1. Remediation of sulphide-bearing mine waste by using sewage
sludge.

By studies on all scales from laboratory tests, pilot scale studies
and full scale field trials, various types of use of sewage sludge
for remediation of sulphide-bearing mine waste will be develope. The
efficiency on different time scales will be quantified as well as
improvements achieved by mixing of the sewage sludge with other
materials. The research is performed in close collaboration with the
active mining industry.

Contact persons: Lena Alakangas, tel +46 920 491396,
lena.alakangas@ltu.se and Björn Öhlander, tel +46 920 491478,
bjorn.ohlander@ltu.se

Dnr 3081-08

2. The use of alternativ materials for remediation of sulphide-
bearing mine waste

During remediation of mining waste, the most important goal is to
decrease the inflow of oxygen to the sulphide minerals. This is
usually obtained by applying a sealing layer with so low hydraulic
conductivity that it always has a high degree of water saturation.
Till with a high clay content is commonly used in Sweden. In this
project the use of alternative materials, such as waste from other
industries and activities will be studied. The research is performed
in close collaboration with the active mining industry.

Contact persons: Lena Alakangas, tel +46 920 491396,
lena.alakangas@ltu.se and Björn Öhlander, tel +46 920 491478,
bjorn.ohlander@ltu.se

Dnr 3082-08

3. Effects of hydropower production on river-near

Hydropower production results in changed water levels in regulated
rivers. Short-term water level changes result in changed eco-systems
close to the rivers, and changed groundwater levels and properties.
The aim of this project is to study the effects of hydropower
production on the geochemistry of river-near groundwater.

Contact persons: Angela Lundberg, tel +46 920 491207,
angela.lundberg@ltu.se and Björn Öhlander, tel +46 920 491478,
bjorn.ohlander@ltu.se

Dnr 3083-08

4. The use of Cu-isotopes to quantify the role of microbes in
geochemical key reactions such as preciptation and dissolution of
minerals

During the latest years it has become possible to detect and analyse
the small changes in isotopic composition which chemical and
biological processes cause also for stable metals such as Cu. The
research team at Applied geology in Luleå is leading in Sweden in
development of such analyses, and in the development of applications
of them. The aim of this project is to develop methods for analyses
of Cu-isotopes in different materials, and to use such analyses to
quantify the role of microbes in geochemical key reactions such as
dissolution and precipitation of minerals in oxidizing mine waste.
Also isotopic changes during uptake in plants will be studied.

Contact person: Björn Öhlander, tel +46 920 491478,
bjorn.ohlander@ltu.se

Dnr 3084-08

5. Optimization of surveys of polluted areas

About 1 billion SEK is spent annually in Sweden for surveying and
remediation of polluted areas. The guidances for how to perform
sampling, anlyses and interpretations of, for example, polluted
soils, are vague and insufficient. The aim of this project is to
improve surveying of polluted areas, by geostatistical studies av
finished and ongoing objects.

Contact person: Christian Maurice, +46 70 6090195

Dnr 3085-08

6. Remediation of sulphidic mine tailings using green liquor dregs;
solving two waste problems at the same time

Mining results in large amounts of waste, waste rock and mill
tailings. If this waste contains sulphide minerals, oxidation may
result in the formation of acid mine drainage. The aim of this
project is to study if green liquor dredge, an alkaline rest product
from the paper industry, can be used as water and oxygen barrier in
sealing layers in remediation of mine waste. The green liquor dredge
may also buffer acidity produced by the oxidizing sulphides.
Potentially, two waste problems could be solved at the same time

Contact persons: Christian Maurice, + 46 70 6090195 and Björn
Öhlander, +46 920 491478, bjorn.ohlander@ltu.se

Dnr 3175-08

Application

Application with merits marked with Ref No should be sent to the
Registry Secretary,Luleå University of Technology, SE-971 87 Luleå,
Sweden or by email to registrator@ltu.se

Last date for all applications is: 2009-01-01

http://www.ltu.se/omltu/ledigajobb/d21832/d21835/1.43200?l=en

PhD Studentships University of Bath School of Management

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PhD Studentships

University of Bath School of Management

Overseas PhD Studentships

Studentships to cover Overseas fees, stipend and £1,000 training support grant and are awarded for three years.

And

Excellent PhD Studentships

Studentships to cover home/EU fees, stipend and £1,000 training support grant and are awarded for three years.

Applicants are expected to be seeking to pursue careers as professional research scholars and to exhibit excellent potential to succeed as international academics.

Applicants are strongly advised to approach suitable potential supervisors at the School of Management before applying.

To apply please follow this web link: http://www.bath.ac.uk/prospectus/postgrad/docs/appnform-2007.doc

Closing Date: 16th January 2009

The University of Bath, School of Management is rated 5A for research in the latest UK government's Research Assessment Exercise (RAE) and is ranked among the top UK business schools.

Further Details

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