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Internal Research Fellow PostDoc

2018-07-12 18:26:57| Space-careers.com Jobs RSS

Research Fellowship Opportunity in the Directorate of Technology, Engineering and Quality. ESA is an equal opportunity employer, committed to achieving diversity within the workforce and creating an inclusive working environment. Applications from women are encouraged. Post Internal Research Fellow PostDoc in Radio Frequency RF plasma discharge modelling and coupling optimisation for atomic clocks This post is classified F2. Location ESTEC, Noordwijk, The Netherlands Our team and mission This position is located in the RF Equipment and Technology Section of the RF Payloads Technology Division and is focused on the RF plasma discharge modelling, characterization and validation for its application in ultrastable time references such as atomic clocks. The RF Payloads Technology Division is responsible for RF payloads, instruments and technologies for space and ground applications, including all equipment having a RF spaceground interface and its associated laboratories. The Division supports the definition, specification and developmentprocurement of laboratories either for ESA projects and technology programmes or external customers. Within the Division, the RF Equipment and Technology Section provides functional support to ESA projects and carries out technological research RD in the fields of RF equipment and building blocks, active and passive components, technologies and related design and characterisation tools. Fields of activitiesresearch Controlled RF plasma discharges are used in atomic clocks for atom flux creation by means of molecular dissociation or as a spectral optical source for population inversion in double resonance schemes. At the same time, atomic clocks are increasingly becoming a key technology for space applications, where onboard ultrastable time references are required. This is the case for future scientific missions, such as ACES, which will provide an inorbit time reference and also, on a much larger scale, for the GNSS constellations for which multiple atomic clocks are embarked on each satellite. A detailed understanding of RF plasma discharge evolution over clock lifetime and its optimization to improve the signal to noise and then the performance of the atomic clocks are therefore important research fields. The tasks assigned to the selected candidate will include RF plasma discharge modelling and validation, discharge optimization, analysis and prevention of wearout effects and validation of the identified solution by experimental tests in the ESTEC laboratories. The outcomes of this work will be fed into future developments. Technical competencies Ability to conduct research autonomously Breadth of exposure coming from past andor current researchactivities Researchpublication record Knowledge relevant to the field of research Interest in space and space research Ability to gather and share relevant information Behavioural competencies Innovation Creativity Continuous Learning Relationship Management Self Motivation Communication Problem Solving CrossCultural Sensitivity Education Applicants should have recently completed, or be close to completion of a PhD in a related technical or scientific discipline, preferably in plasma physics. Preference will be given to applications submitted by candidates within five years of receiving their PhD. Additional requirements The Research Fellow must be able to work in a team with other international investigators in a spirit of positive cooperation and, at the same time, be capable of working autonomously in hisher area of research. Previous experience in experimental research within a laboratory environment as well as competence in optical spectroscopy would be assets. Good knowledge of RFelectromagnetic modeling and multiphysics environment simulation is desirable. At the end of the fellowship, the Research Fellow will be required to summarise the work completed so that it can be included in papers to be submitted to relevant specialised conferencesjournals. The working languages of the Agency are English and French. A good knowledge of one of these is required. Knowledge of another Member State language would be an asset. Other information For behavioural competencies expected from ESA staff in general, please refer to the ESA Competency Framework. The Agency may require applicants to undergo selection tests. The closing date for applications is 23 August 2018. In addition to your CV and your motivation letter, please add your proposal of no more than 5 pages outlining your proposed research in the additional documents field of the application information section. Candidates are asked to arrange for 3 reference letters, to be sent by the referees themselves, before the closing date to temp.htresa.int. Please ensure your name is mentioned in the subject of the email. If you require support with your application due to a disability, please email contact.human.resourcesesa.int. Please note that applications are only considered from nationals of one of the following States Austria, Belgium, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland, the United Kingdom and Canada and Slovenia as well as Bulgaria, Cyprus, Latvia, Lithuania, Slovakia as European Cooperating States ECS. Priority will first be given to candidates from underrepresented Member States. In accordance with the European Space Agencys security procedures and as part of the selection process, successful candidates will be required to undergo basic screening before appointment Apply HERE

Tags: research internal fellow research fellow

Postdoc Scientist fm

2018-05-18 16:26:33| Space-careers.com Jobs RSS

SRONs mission is to bring about breakthroughs in international space research. Therefore, the institute develops pioneering technology and advanced space instruments, and uses them to pursue fundamental astrophysical, Earth science and exoplanetary research. As national expertise institute SRON gives counsel to the Dutch government and coordinates national contributions to international space missions. SRON stimulates the implementation of space science in our society. Our Earth Science Group has a vacancy for a Postdoc Scientist fm Vacancy number 1401 Project Outline At the Paris climate conference COP 21 in December 2015, 195 countries adopted the first legally binding climate agreement to reduce greenhouse gas emissions, with the aim to limit global warming to well below 2oC by 2100. To support the monitoring of national emission reduction pledges, European scientists are preparing the launch of the Copernicus CO2 monitoring constellation. It will consist of 3 or 4 satellites for highresolution imaging of anthropogenic CO2 emissions. The challenge is to meet the required measurement sensitivity and accuracy, which are highly demanding for longlived greenhouse gases such as CO2. An important factor limiting the accuracy of space borne CO2 measurements is atmospheric scattering of light on aerosol and cirrus cloud particles. Several options are considered to mitigate such errors, including the deployment of a dedicated aerosol sensor on the spacecraft. The aim of this project is to investigate the benefit of this solution, as well as alternatives, using Observing System Simulation Experiments OSSEs. These experiments simulate the impact of scattering induced errors on CO2 emissions that are derived from the measurements using inverse modelling techniques. The OSSEs will address the estimation of anthropogenic CO2 emissions on spatial scales ranging from regional scale of countries to local scale of cities. The assumptions used in the OSSEs will be based on measurements from NASAs Orbiting Carbon Observatory 2, which has been collecting CO2 data since summer 2014. Tasks The successful applicant will design OSSE experiments using TM54DVAR regional scale and WRFCHEM local scale to test the performance of the CO2 monitoring system depending on the approach to mitigate systematic retrieval errors from atmospheric scattering. OCO2 data will be analyzed to ensure that the assumptions that are used in the inversion setup are realistic. The research will be conducted in cooperation with other international partners within two European H2020 projects CHE and SCARBO, requiring active participation at annual assemblies and project telecons and presentation of the achieved progress. As part of the SCARBO project, aircraft campaign will be conducted to investigate the synergy between remotely sensed CO2 and aerosol. The applicant will support the flight planning using model results and will assist in the interpretation of the data. The main outcomes will be published in peer reviewed journals. Requirements For this project we are looking for an ambitious, highly motivated and result driven scientist with a PhD degree in atmospheric physicschemistry, with experience in atmospheric inverse modelling of longlived greenhouse gases. Experience with the use of real observations in situ or satellite measurements is considered a clear asset. Good knowledge of the English language is essential, and the candidate should be capable to work both independently and in a team. Functional competencies Results oriented Analytical Can communicate clearly SRON core competencies Innovative Focused on collaboration Responsibility A global player Flexibility Employment conditions Employment of this fulltime position as a Scientist C at SRONUtrecht is by NWOI The Netherlands Organization for Scientific Research Institutes and will be for a period of 2 years. The salary will be in accordance with the salary scales of NWOI with a maximum of 4.237, gross per month on a fulltime basis highly depending on education and relevant experience. NWO has good secondary employment conditions such as An end of year bonus of 8,33 of the gross yearly salary 42 days of vacation leave a year on fulltime basis A holiday allowance of 8 of the gross yearly salary An excellent pension scheme Options for additional personal development Excellent facilities for parental leave. For further information For further information about the position, please contact prof. dr. ir. Sander Houweling 310 20 598 3687, s.houwelingvu.nl or prof. dr. Ilse Aben, telephone 31088 777 5879, i.abensron.nl. More information about SRON can be found at www.sron.nl. Letter of application If you wish to apply you can send a motivation letter with CV and the names and addresses of references incl. phone and email preferably via mail to jobssron.nl. Please state the vacancy number SRON 1401 in the subject of your mail. Applications will be accepted until 31 May 2018. SRON Utrecht moves to Leiden in 2021. In the event of equal suitability, preference will be given to female applicants. No commercial propositions please. Online screening may be part of the selection procedure.

Tags: fm scientist postdoc

Internal Research Fellow PostDoc in modelbased Verification Validation of autonomous systems

2018-05-18 14:25:31| Space-careers.com Jobs RSS

Research Fellow opportunity in the Directorate of Technology, Engineering and Quality. ESA is an equal opportunity employer, committed to achieving diversity within the workforce and creating an inclusive working environment. Applications from women are encouraged. Post Internal Research Fellow PostDoc in modelbased Verification Validation of autonomous systems This post is classified F2 on the Coordinated Organisations salary scale. Location ESTEC, Noordwijk, The Netherlands Description The Software Systems Division covers engineering, verifictaion and validation techniques for space systems, in particular in the functional domain. This includes missioncritical software, software technology for flight as well as ground systems, realtime software embedded in spacecraft systems and payloads, but also ground facilities software, including electrical ground support equipment, test benches, databases and simulation and modelling tools. Future missions will rely on an increased level of autonomy to enable more compplex missions and an increased perfromance. For the design of such missions, increased use is made of modelbased methods and tools, impacting the engineering information manageent along the life cycle of the development. The impact of this evolution on the verifictaion and validation process needs to be fully understood to ensure the required quality of these missions. Interested candidates are highly encouraged to visit ESA website www.esa.int Fields of activitiesresearch Future space exploration missions will require autonomous robotic systems with selfawarenessadaptation capabilities. Achieving acceptable performance and assurance levels for an autonomous robotic system will require substantial verification and validation activities. Coverage of these activities will take place at several levels and at several points in the Vcycle, and will be provided through both experimentation and test benches. Finally and importantly, the verification and validation approach must match the processes increasingly being adopted by space system integrators modelbased system engineering and increasingly virtual engineering, requiring the ability to switch effortlessly between the physical and virtual worlds and to apply consistent test conditions and test results analysis in either case. In this respect the Harwell Robotics and Autonomy Facility HRAF provides a framework for the testing and evaluation of autonomous robotic systems. Initiated a few years ago, its incremental development has focused on the HighLevel Architecture HLA based distributed simulation environment and planetary rover field tests. In support of this development, the research will address the verification and validation coverage for systemlevel testing on the bench as part of modelbased engineering for specifying, developing, testing and evaluating autonomous robotic systems. In particular, a simulationbased validation methodology, including worst case scenarios and reference use cases, will be defined, and the selected blackbox testing methods will be developed and evaluated on the HRAF. The research will involve SysML or equivalent modelling at system level and will consider a planetary rover as the main application. The post will involve collaboration at ESA Directorate level as well as with academic and industrial partners. Technical competencies Ability to conduct research autonomously Breadth of exposure coming from past andor current researchactivities Researchpublication record Knowledge relevant to the field of research Interest in space and space research Ability to gather and share relevant information Behavioural competencies Innovation Creativity Continuous Learning Relationship Management Self Motivation Communication Problem Solving CrossCultural Sensitivity Education Applicants should have recently completed, or be close to completion of a PhD in computer science, modelling methods, VV or systems engineering. Preference will be given to applications submitted by candidates within five years of receiving their PhD. Additional requirements The working languages of the Agency are English and French. A good knowledge of one of these is required. Knowledge of another Member State language would be an asset. Other information For behavioural competencies expected from ESA staff in general, please refer to the ESA Competency Framework. The Agency may require applicants to undergo selection tests. The closing date for applications is 18 June 2018. In addition to your CV and your motivation letter, please add your proposal of no more than 5 pages outlining your proposed research. Candidates must also arrange for three letters of reference to be sent by email, before the deadline, to temp.htresa.int. The letters must be sent by the referees themselves. The candidates name must be mentioned in the subject of the email. If you require support with your application due to a disability, please email contact.human.resourcesesa.int. Please note that applications are only considered from nationals of one of the following States Austria, Belgium, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland, the United Kingdom and Canada and Slovenia as well as Bulgaria, Cyprus, Latvia, Lithuania, Slovakia as European Cooperating States ECS. Priority will first be given to candidates from underrepresented Member States. In accordance with the European Space Agencys security procedures and as part of the selection process, successful candidates will be required to undergo basic screening before appointment

Tags: research systems internal fellow

Internal Research Fellow PostDoc on FLEX, Sentinel 23 missions

2018-05-15 11:26:47| Space-careers.com Jobs RSS

Research Fellowship Opportunity in the Directorate of Earth Observation Programmes. ESA is an equal opportunity employer, committed to achieving diversity within the workforce and creating an inclusive working environment. Applications from women are encouraged. Post Internal Research Fellow PostDoc on FLEX, Sentinel 23 missions This post is classified F2. Location ESTEC, Noordwijk, The Netherlands Our team and mission The holder of this post will report to the Campaign Section in the Earth and Mission Science Division within the Science, Applications and Climate Department of the Directorate of Earth Observation Programmes. In the execution of the tasks, the holder of this post will work in close cooperation with other staff of the Division and the Directorate of Earth Observation Programmes. The Earth and Mission Science Division is a dynamic RD team leading research and development activities, in partnership with European and international industry and academia, aiming at advancing science, developing future missions, novel applications, supporting industry growth and contributing to maximize the science impact of existing and future missions. Interested candidates are encouraged to visit the ESA website www.esa.int Fields of activitiesresearch The partitioning of incoming radiation into plant transpiration, soil evaporation and sensible heat flux is key for the accurate representation in weather and climate models. The representation of these processes in these largescale models is still one of the largest sources of uncertainty in present and future scenarios and therefore it requires new approaches. In short, the components of radiation, surface responses and turbulent exchanges processes need to be treated with a holistic manner in order to understand and represent the landatmosphere interface. This approach emphasizes that the carbon and water cycles are very closely linked over land. Particularly relevant is how vegetation regulates the carbon dioxide assimilation and its transpiration, and the atmospheric feedbacks. This vegetation response depends on the plant stress, and the atmospheric moisture deficit, but also on radiation perturbation and surface heterogeneities. Several existing e.g. Sentinel2Sentinel3 and future missions e.g. FLEX, BIOMASS are addressing related topics. Furthermore there is a potential that High Priority Copernicus Missions HPCM e.g. LST, LBand SAR will aid in the holistic treatment of relevant processes. During summer 2018 the FLEXSense campaign is aiming at combining relevant, satellite, airborne and groundbased data in such a holistic manner. The basic objective of the campaign is to serve as a measurement and science benchmark for existing or upcoming missions with a strong focus on optical and radar remote sensing. An original aspect of the proposed work is the intensive use of airborne remote sensing products e.g. HyPlant, TASI, LBand SAR together with existing satellite data e.g. Sentinel23ab. In a first stage, together with ground truth observational data, these products will be employed to processdriven development, to constrain numerical experiments performed with a singlecolumn model and to validate the experiments. By utilizing the high spatial resolution data and frequency representative for coarser resolution will enable the candidate to determine the state of different ecosystem at the plot scale closely related to static heterogeneity, but also sudden changes on the vegetation responses. In a second stage, this remote sensing data can be assimilated to improve the assumptions and performance of the mechanistic models representing photosynthesis and stomatal aperture. Due to its very innovative concept and unique data, the full exploitation of the gathered campaign data from FLEXSense 2018 will require a dedicated effort to explore its full potential from a scientific perspective. In this context, the candidate will be involved in three main activities Perform model simulations with a state of the art singlecolumn soilvegetationatmospheretransfer model at the core sites of the campaign for at least one growing season. Carry out a dedicated research focusing on the scientific exploitation of the FLEXSense 2018 campaign data with special focus on the underlying physical processes, fostering new science results for the synergistic use of observations from existing and future missions. Support the scientific and technical supervision of science projects, carried out by external teams of experts and scientists, addressing mainly vegetation processes process understanding and characterization, enhancing models and the study of the processes and interactions between the vegetation and the lower atmosphere. Technical competencies Knowledge relevant to the field of research Researchpublication record Ability to conduct research autonomously Breadth of exposure coming from past andor current researchactivities Interest in space and space research Ability to gather and share relevant information Behavioural competencies Innovation Creativity Continuous Learning Communication Relationship Management Self Motivation Problem Solving CrossCultural Sensitivity Education Applicants should have recently completed, or be close to completion of a PhD in a related technical or scientific discipline. In particular for this position, PhD or equivalent qualification in Physics, Engineering or Earth Science with research experience and peerreviewed publications in relevant topics for the fields of research proposed. Additional requirements Experience with computing programing will be an asset. Applicants should have good analytical and communication skills and should be able to work in a multicultural environment in an autonomous manner. The working languages of the Agency are English and French. A good knowledge of one of these is required. Knowledge of another Member State language would be an asset. Preference will be given to applications submitted by candidates within five years of receiving their PhD. Other information For behavioural competencies expected from ESA staff in general, please refer to the ESA Competency Framework. The Agency may require applicants to undergo selection tests. The closing date for applications is 11 June 2018. In addition to your CV and your motivation letter, please add your proposal of no more than 5 pages outlining your proposed research in the additional documents field of the application information section. Candidates are asked to arrange for 3 reference letters, to be sent by the referees themselves, before the closing date to temp.htresa.int. Please ensure your name is mentioned in the subject of the email. If you require support with your application due to a disability, please email contact.human.resourcesesa.int. Please note that applications are only considered from nationals of one of the following States Austria, Belgium, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland, the United Kingdom and Canada and Slovenia as well as Bulgaria, Cyprus, Latvia, Lithuania, Slovakia as European Cooperating States ECS. Priority will first be given to candidates from underrepresented Member States. In accordance with the European Space Agencys security procedures and as part of the selection process, successful candidates will be required to undergo basic screening before appointment Apply HERE

Tags: research internal fellow missions

Internal Research Fellow PostDoc on EO missions for Geohazards applications

2018-05-15 11:26:47| Space-careers.com Jobs RSS

Research Fellowship Opportunity in the Directorate of Earth Observation Programmes. ESA is an equal opportunity employer, committed to achieving diversity within the workforce and creating an inclusive working environment. Applications from women are encouraged. Post Internal Research Fellow PostDoc on EO missions for Geohazards applications This post is classified F2. Location ESRIN, Frascati, Italy Our team and mission The postholder will report to the Head of the Enterprise Section in the Data Applications Division within the Science, Applications and Climate Department of the Directorate of Earth Observation Programmes. In the execution of the tasks, the postholder will work in close cooperation with other staff of the Directorate of Earth Observation Programmes. The Data Applications Division is a dynamic RD team leading research and development activities, in partnership with European and international industry and academia, aiming at advancing science, developing novel applications, supporting industry growth and contributing to establish an European ecosystem of exploitation platforms to maximize the impact of European missions in society. Overview of the field of research proposed There is considerable interest in the application of state of the art EO based analysis techniques to the Disaster Risk Management DRM domain. The principal risk areas addressed include geohazards earthquakes, landslides, volcanism, subsidence and hydrometeorological hazards such as flooding. In the domain of geohazard risks, there is important scope to develop innovative uses of terrain motion techniques based on Optical imagery e.g. feature detection, recognition and tracking with precise image correlation and Radar imagery e.g. interferometric processing of Synthetic Aperture Radar data. These developments make use of novel approaches enabled by advances in ICT capabilities such as for instance high performance Cloud based computing and machine learning. ESA Research Development activities in this domain are generally conducted in support of international collaborations such as CEOS WG Disasters including the ESA originated Geohazards Lab initiative. Interested candidates are encouraged to visit the ESA website www.esa.int Fields of activitiesresearch The candidate will be involved in the following activities Support the supervision of current and future ESA data exploitation projects related to geohazard science. Primary focus is on terrain motion mapping using both Optical and SAR interferometric InSAR data with both heritage missions ERS, Envisat, new ESAEC missions Sentinel1 2 and third party missions ALOS12, CosmoSymed, TerraSARX that are of direct relevance to the geohazards science community. Participate to relevant ESA activities engaging science users such as e.g. FRINGE, CEOS WG Disasters, etc. Support validation activities and scientific animation addressing hosted processing tools and new EO based processing chains with a focus on Cloud processing environments such as the Geohazards Exploitation Platform GEP originated by ESA in the context of the ESA Thematic Exploitation Platforms TEP and within the CEOS WG Disasters. This includes support to the scientific promotion of techniques using Sentinel1 e.g. advanced InSAR and Sentinel2 e.g. image correlation techniques and dedicated demonstration activities. Contribute to the definition of requirement for the evolution of the GEP in the context of the CEOS WG Disaster Elaborate and test the definition of methods to harmonize access and use of EO data and associated tools and processing chains with the aim to achieve a better scientific understanding of precise terrain motion measurements and collaborate with relevant scientific initiatives e.g. the Geohazard Supersites Natural Laboratories, the Geohazards Lab initiative within CEOS to help achieve better acceptance and adoption of satellite EO As a dedicated research project, elaborate and test the definition of new methods combining EO data with non EO data and modelling to address scientific requirements from relevant scientific networks in the geohazards domain. Technical competencies Knowledge relevant to the field of research Researchpublication record Ability to conduct research autonomously Breadth of exposure coming from past andor current researchactivities Interest in space and space research Ability to gather and share relevant information Behavioural competencies Innovation Creativity Continuous Learning Communication Relationship Management Self Motivation Problem Solving CrossCultural Sensitivity Education Applicants must have completed their PhD or equivalent studies in Physics, Engineering or Earth Science with research experience and peerreviewed publications in relevant topics for the fields of research proposed. In particular, the candidate shall demonstrate to be familiar with the use of Optical and Synthetic Aperture Radar data for geohazard risks and in particular with EO based terrain motion mapping. Additional requirements Experience with computing programing and image processing tools and software will be an asset. Applicants should have good analytical and communication skills and should be able to work in a multicultural environment in an autonomous manner. The working languages of the Agency are English and French. A good knowledge of one of these is required. Knowledge of another Member State language would be an asset. Preference will be given to applications submitted by candidates within five years of receiving their PhD. Other information For behavioural competencies expected from ESA staff in general, please refer to the ESA Competency Framework. The Agency may require applicants to undergo selection tests. The closing date for applications is 11 June 2018. In addition to your CV and your motivation letter, please add your proposal of no more than 5 pages outlining your proposed research in the additional documents field of the application information section. Candidates are asked to arrange for 3 reference letters, to be sent by the referees themselves, before the closing date to temp.htresa.int. Please ensure your name is mentioned in the subject of the email. If you require support with your application due to a disability, please email contact.human.resourcesesa.int. Please note that applications are only considered from nationals of one of the following States Austria, Belgium, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland, the United Kingdom and Canada and Slovenia as well as Bulgaria, Cyprus, Latvia, Lithuania, Slovakia as European Cooperating States ECS. Priority will first be given to candidates from underrepresented Member States. In accordance with the European Space Agencys security procedures and as part of the selection process, successful candidates will be required to undergo basic screening before appointment Apply HERE

Tags: research applications internal fellow

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