M
Morten Andersen
Researcher at Roskilde University
Publications - 148
Citations - 3924
Morten Andersen is an academic researcher from Roskilde University. The author has contributed to research in topics: Stars & Star formation. The author has an hindex of 35, co-authored 131 publications receiving 3592 citations. Previous affiliations of Morten Andersen include Aarhus University & European Space Research and Technology Centre.
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Journal ArticleDOI
Genetics of therapy-related myelodysplasia and acute myeloid leukemia
TL;DR: Critical genetic effects underlying 5q−/−5 and 7q−-/−7 have been proposed and their association and cooperation with point mutations of p53 and AML1, respectively, extend the scenario of cooperating genetic abnormalities in MDS andAML.
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Evidence of residual disease in cryopreserved ovarian cortex from female patients with leukemia
Mikkel Rosendahl,Morten Andersen,Elisabeth Ralfkiaer,Lars Kjeldsen,Mette K. Andersen,Claus Yding Andersen +5 more
TL;DR: Investigation of cryopreserved ovarian cortex from Danish female patients diagnosed with leukemia was unable to locate leukemic cells in the ovarian cortex; however, PCR detected potentially malignant cells inThe majority of cases.
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Lifetimes of organic photovoltaics: photochemistry, atmosphere effects and barrier layers in ITO-MEHPPV:PCBM-aluminium devices
Frederik C. Krebs,Jon Eggert Carlé,Nicolaj Cruys-Bagger,Morten Andersen,Mathilde Raad Lilliedal,Mark A. Hammond,Søren Hvidt +6 more
TL;DR: In this article, the lifetimes of poly(2methoxy-5-ethylhexyloxy)-1,4-phenylenevinylene] (MEH-PPV) and [6,6]-phenyl-C 61 -butyric acid methyl ester (PCBM) were studied in terms of the atmosphere, handling, electrode treatment, mode of preparation and barrier layers.
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IRAS 05358+3543: Multiple outflows at the earliest stages of massive star formation
Henrik Beuther,Peter Schilke,Frederic Gueth,Mark J. McCaughrean,Morten Andersen,T. K. Sridharan,Karl M. Menten +6 more
TL;DR: In this paper, a high-angular-resolution molecular line and millimeter continuum study of the massive star formation site IRAS 05358+3543 is presented, where the authors estimate a mass accretion rate of 10 4 M/yr, sucient to overcome the radiative pressure of the central object and to build up a massive star.
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IRAS 05358+3543: Multiple outflows at the earliest stages of massive star formation
Henrik Beuther,Peter Schilke,Frederic Gueth,Mark J. McCaughrean,Morten Andersen,T. K. Sridharan,Karl M. Menten +6 more
TL;DR: In this paper, a high-angular-resolution molecular line and millimeter continuum study of the massive star formation site IRAS 05358+3543 is presented, where the most remarkable feature is a highly collimated (collimation factor ~10) and massive (>10 M_sun) bipolar outflow of 1 pc length, which is part of a quadrupolar outflow system.