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Ergänzender Buchartikel

(... befindet sich zur Zeit in der Vorbereitungsphase)

Buchliteratur

P. J. Armitage P J (2013) Astrophysics of Planet Formation, Cambridge University Press

J. Bally, B. Reipurth B (2006) The Birth of Stars and Planets, Cambridge University Press

G. Belvedere (1989) Accretion Disks and Magnetic Fields in Astrophysics, Kluver Academics Publisher, Dordrecht Boston London

H. Beuther et al. (Eds., 2014) Protostars and Planet VI, The University of Arizona Press 

J. Bouvier, I. Appenzeller I (Eds.,2007) Star-Disk Interaction in Young Stars, IAU/Cambridge University Press

A. I. Gómez de Castro A I et al. (Eds., 2004) Magnetic Fields and Star Formation - Theory Versus Observations, Kluwer Academic Publishers

U. von Kusserow (2013) Magnetischer Kosmos - To B or not to B, Springer Spektrum

U. von Kusserow (2018) Chaos, Turbulenzen und kosmische Selbstorganisationsprozesse, Springer Spektrum

J. J. Lissauer, I. de Pater I (2019) Fundamental Planetary Science – Physics, Chemistry and Habitability, Cambridge University Press
Mestel L (1999) Stellar Magnetism, Larendon Press, Oxford

M. Perryman (2018) The Exoplanet Handbook, Cambridge University Press

 Protostars and Planets VII Chapters (2023)

B. Reipurth, D. Jewitt, K. Keil (Eds., 2007) Protostars and Planets V

M. Scholz (2014) Planetologie extrasolarer Planeten, Springer Spektrum

K. G. Strassmeier, A. G. Kosovichec, J. E. Beckmann (2009) Cosmic Magnetic Fields: From Planets, to Stars and Galaxies, Cambridge University Press

K. Tsinganos (2009) Protostellar Jets in Context, Springer

R. Wielebinski, R. Beck R (Eds., 2005) Cosmic Magnetic Fields, Springer

J. B. Zirker (2009) The Magnetic Univers - The Elusive Traces of an Invisible Force, The Johns Hopkins University Press, Baltimore

 

Artikel und Vorträge

Galaktische Magnetfelder

R. Beck (2015) Magnetic Fields in Galaxies

R. Beck et al. (2019) Synthesizing Observations and Theory to Understand Galactic Magnetic Fields: Progress and ChallengesGalactic Magnetic Fields: Progress and Challenges

F. Boulanger (2016)  Planck view at Galactic magnetic fields

ESA (2014) Planck takes magnetic fingerprint of our Galaxy

MPIA (2022) Inner view of the Milky Way’s magnetic field shows spiral structure

V. Pelgrims1, J.F. Macías-Pérez1, F. Ruppin (2021) Galactic magnetic field reconstruction using the polarized diffuse Galactic emission: Formalism and application to Planck data

Planck Collaboration (2016) Planck intermediate results. XLII. Large-scale Galactic magnetic fieldsfields

I. W. Stephens (2020) Magnetic Fields in Galactic Star Formation

I. W. Stephens (2022) The Magnetic Field in the Milky Way Filamentary Bone G47

D. Yar-Mukhamedov (2015) Modelling Galaxy Evolution in the Era of ALMA and SKA

Magnetfelder in Molekül- und Staubwolken, bei der Sternbildung

ESA (2019) Orion A in infrared

M. Chevance et al. (2020) The Molecular Cloud Lifecycle

M. Chevance et al. (2022) The Life and Times of Giant Molecular Clouds

James Clerk Maxwell Telescope (2018) First observations of the magnetic field inside the Pillars of Creation: Results from the BISTRO survey

N. C. Giang et al. (2022) Physical Modeling of Dust Polarization from Magnetically Enhanced Radiative Torque (MRAT) Alignment in Protostellar Cores with POLARIS

M. Kounkel (2018) VLBA Observations of Strong Anisotripic Radio Scattering Toward the Orion Nebula

Max-Planck-Gesellschaft (2016) The secret life of the Orion nebula - The interplay of magnetic fields and gravitation in the gas cloud lead to the birth of new starsThe interplay of magnetic fields and gravitation in the gas cloud lead to the birth of new stars

H. - B. Li (2021) Magnetic Fields in Molecular Clouds - Observation and Interpretation

H. - B. Li (2022) The Link between Magnetic Fields and Cloud/Star Formation

Z. - A. Li et al. (2014) The Earliest Stages of Star and Planet Formation: Core Collapse, and the Formation of Disks and Outflows

J. Liu, Q. Zhang, K. Qiu (2022) Magnetic field properties in star formation: a review of their analysis methods and interpretationinterpretation

J. M. Oliveira (2008) Star Formation in the Eagle Nebula

NRAO (2015) Twisted Magnetic Fields Give New Insights on Star Formation

K. Pattle et al. (2018) First observations of the magnetic field inside the Pillars of Creation: Results from the BISTRO survey

K. Pattle et al. (2022) Magnetic fields in star formation: from clouds to cores

R. Sanders (2006) Astronomers find magnetic Slinky in Orion

SkyTechDaily (2022) ALMA Discovers a Weak and Wildly Disorganized Magnetic Field Near a Protostar

J. D. Soler, A. Bracco, A. Pon (2018) The magnetic environment of the Orion-Eridanus superbubble as revealed by Planck

K. Sukitani (2007) Near-Infrared Polarimetry of the Eagle Nebula (M16)

M. Tahani et al. (2020) Magnetic Fields Associated with Filamentary Molecular Clouds - A New Method

M. Tahani et al. (2022) Orion A's complete 3D magnetic field morphology

M. Tahani (2022) Three-dimensional magnetic fields of molecular cloudsmolecular clouds

Y. Tsukamoto et al. (2022) The role of magnetic fields in the formation of protostars, disks, and outflows

J. Wurster, Z.-Y. Li (2018) The Role of Magnetic Fields in the Formation of Protostellar Discs

Protosternentstehung

C: L. H. Hull (2017) Unveiling the Role of the Magnetic Field at the Smallest Scales of Star Formation

R. Kayser (2016) Magnetfelder beschleunigen Sternentstehung

E. Keto (2007) The Formation of Massive Stars: Accretion, Disks, and the Development of Hypercompact H II Regions

M. R. Krumholz, C. Federrath (2019) The Role of Magnetic Fields in Setting the Star Formation Rate and the Initial Mass Function

U. v. Kusserow (2013) Sternentwicklung und Magnetfelder

H.-bai Li et al. (2014) The Link between Magnetic Fields and Cloud/Star Formation

S. J. Mathew, C. Fedrrath, A. Seta (2022) The role of the turbulence driving mode for the Initial Mass FunctionThe role of the turbulence driving mode for the Initial Mass Function

D. J. Seifried (2012) Magnetic fields during the early phase of massive star formation

M. Starr (2021) This Jaw-Dropping Simulation Gives Us Our Best Look Yet at baby Stars Being Born

N. Vaytet et al. (2018) Protostellar birth with ambipolar and ohmic diffusion

MPI für Radiosastronomie (2020) Magnetische Gasströme füttern einen jungen Sternhaufen

Protostellare Dynamos und Magnetfelder

C. M. Johns-Krull et al. (2009) First Magnetic Field Detection on a Class I Protostar

E. Kaufman et al. (2022) The Stability of Prendergast Magnetic Fields

M. N. Machida, S.- I. Inutsuka, T. Matsumoto (2007) Magnetic Fields and Rotations of Protostars

E. Redaelli et al. (2019) Magnetic properties of the protostellar core IRAS 15398-3359

I. W. Stephens et al. (2013) The magnetic field morphology of the class 0 protostar L1157

M. K. Verma, B. B. Karak, R. Kumar (2013) Dynamo in Protostars

Protostellare (~planetare) Akkretionsscheiben

X.- N. Bai1, J. M. Stone (2016) Hall-effect Mediated Magnetic Flux Transport in Protoplanetary Disks

S. A. Balbus (2009) Magnetohydrodynamics of Protostellar Disks

C. R. Braiding, W. Wardle (2012) The Hall effect in accretion flows

M. Flock et al. (2015) Gaps, rings, and non-axisymmetric structures in protoplanetary disks - From simulations to ALMA observations

G. Lesur, M. W. Kunz, S. Fromang (2014) Thanatology in Protoplanetary Discs - The combined influence of Ohmic, Hall, and ambipolar diffusion on dead zones

G. Lesur et al. (2022) Hydro-, Magnetohydro-, and Dust-Gas Dynamics of Protoplanetary disks

I. V. Hinz (2008) Entwicklung Protostellarer und Protoplanetarer Akkretionsscheiben

A. Jafari (2019) Magnetic fields in accretion disks: a review

L. H.S. Kadowaki,  E. M. de Gouveia Dal Pino, T, E. Medina-Torrejón (2019) A statistical study of fast magnetic reconnection in turbulent accretion disks and jets

S. A. Khaibrakhmanov, A. E. Dudorov (2017) Magnetic field buoyancy in accretion disks of young stars

S. A. Khaibrakhmanov, A. E. Dudorov (2022) Dynamics of magnetized accretion disks of young stars

Y.-N. Lee, S. Charnoz,P. Hennebelle (2021) Protoplanetary disk formation from the collapse of a prestellar core

G. R. J. Lesur (2020) Magnetohydrodynamics of protoplanetary discs

A. Maleware (2019) Early protostar already has a warped disk

R. Mishra, M. Čemeljić,W. Kluźniak (2022) Accretion disc backflow in resistive MHD simulations

N. J Turner et al. (2014) Transport and Accretion in Planet-Forming Disks

B. Zhao et al. (2020) Hall Effect in Protostellar Disc Formation and Evolution

J. Wurster (2020) Do we need non-ideal magnetohydrodynamics to model protostellar discs?

MPI für Astronomie (2020) Wie man ein Sternenbaby füttert - Gas erreicht junge Sterne entlang von Magnetfeldlinien

Akkretionsscheibendynamos

A. Brandenburg, B. von Rekowski (2004) Dynamos in accretion discs

S. A. Colgate, H.F. Beckley, J. C. Watherall (2002) A Liquid Sodium Simulation of the alpha-omega-Dynamo

S. A. Colgate et al. (2011) High Magnetic Shear Gain in a Liquid Sodium Stable Couette Flow Experiment: A Prelude to an alpha-omega-Dynamo

O. Gressel, M. E. Pessah (2022) Finite-time response of dynamo mean-field effects in magnetorotational turbulence

G. Lesur, G. I. Ogilvie (2008) Localized magnetorotational instability and its role in the accretion disc dynamoaccretion disc dynamo

L. Löhnert, A. G. Peeters (2022) Combined dynamo of gravitational and magneto-rotational instability in irradiated accretion discsinstability in irradiated accretion discs

G. Mattia, C. Fendt (2020) MHD accretion-ejection: jets launched by a non-isotropic accretion disk dynamo. I. Validation and application of selected dynamo tensorial components

G. Mattia, C. Fendt (2020) MHD accretion-ejection: jets launched by a non-isotropic accretion disk dynamo. II. A dynamo tensor defined by the disk Coriolis number

G. Mattia, C. Fendt (2022) Jets from accretion disk dynamos: consistent quenching modes for dynamo and resistivity

D. Moss, A. Shukurov (2004) Accretion disc dynamos opened up by external magnetic fields

B. von Rekowski, G. Rüdiger, D. Elstner (1999) Structure and magnetic configurations of accretion disk-dynamo models

B. von Rekowski et al. (2003) Structured outflow from a dynamo active accretion disc

M. Reyes-Ruiz, T. F. Stepinsk1 (1997) Accretion disc dynamos in the presence of a weak external magnetic field

A. Riols, H. Latter (2017) Magnetorotational instability and dynamo action in gravitoturbulent astrophysical discs

A. Riols, H. Latter (2019) Gravitoturbulent dynamos in astrophysical discs

D. Stepanovs, C. Fendt, S. Sheikhnezami (2014) Modelling MHD accretion-ejection - episodic ejections of jets triggered by a mean-field disk dynamo

U. Torkelson, A. Brandenburg (1994) Turbulent accretion disk dynamos

E. T. Vishniac (1998) Galactic and Accretion Disk Dynamos

Materieakkretion und Ausströmungen

M. Camenzind (1990) Magnetized Disk-Winds and the Origin of Bipolar Outflows

C. Fendt, S. Sheikhnezami (2013) Bipolar jets launched from accretion disks. II. Formation of symmetric and asymmetric jets and counter jets

J. F. Hawley et al. (2015) Disks and Jets - Gravity, Rotation and Magnetic Fields 

A. Oliva, R. Kuiper (2022) Modeling disks and magnetic outflows around a forming massive star: II. Dynamics of jets from massive protostars

S. Sheikhnezami et al. (2012) Bipolar jets launched from magnetically diffusive accretion disks. I. Ejection efficiency vs field strength and diffusivity

D. Stepanovs, C. Fendt (2014) Modelling MHD accretion-ejection - from the launching area to propagation scales

Young Stellar Objects in Star Forming Regions

Prostellare Winde, Jets und Scheibenwinde

ALMA (2018) Magnetic fields found in a Jet from a Baby Star

V. S. Beskin (2011) Magnetohydrodynamic models of astrophysical jets

C. Fendt, D. Elstner (1999) Long-term evolution of a dipole type magnetosphere interacting with an accretion disk

C. Fendt, D. Elstner (2000) Long-term evolution of a dipole type magnetosphere interacting with an accretion disk. II. Transition into a quasi-stationary spherically radial outflow

C. Fendt, M. Yardimci (2022) Curved jet motion. I. Orbiting and precessing jets

C. Fendt, S. Sheikhnezami (2013) Bipolar jets launched from accretion disks. II. Formation of symmetric and asymmetric jets and counter jets

J. Ferreira (2013) Braking down an accreting protostar: disc-locking, disc winds, stellar winds, X-winds and Magnetospheric Ejecta

A. Frank et al. (2022) Jets and Outflows From Star to Cloud: Observations Confront Theory ets and Outflows From Star to Cloud: Observations Confront Theory 

I. Gerrar, C. Federrath, R. Kuruwita (2019) The role of initial magnetic field structure in the launching of protostellar jets

C. - F. Lee (2020) Molecular jets from low-mass young protostellar objects

G. Lesur, J. Ferreira, G. I. Ogilvie (2013) The magnetorotational instability as a jet launching mechanism

N. Lira et al. (ALMA, 2018) Magnetic fields found in a Jet from a Baby Star

R. V. E. Lovelace et al. (2014) On the origin of jets from disc-accreting magnetized stars

M. N. Machida (2017) Protostellar Jets and Outflows in low-mass star formation

R. Moll, H. C. Spruit, M. Obergaulinger (2008) Kink instabilities in jets from rotating magnetic fields

L. Moscadelli et al. (2022) Snapshot of a magnetohydrodynamic disk wind traced by water maser observations

NAO (2015) Twisted Magnetic Fields Give New Insights on Star Formation

I. Pascucci et al. (2022) The Role of Disk Winds in the Evolution and Dispersal of Protoplanetary Disks

R. E. Pudritz, T. P. Ray (2019) The Role of Magnetic Fields in Protostellar Outflows and Star Formation

T. P. Ray, J. Ferreira (2021) Jets from young stars

M. Reiter et al. (2022) Deep diving off the ‘Cosmic Cliffs’: previously hidden outflows in NGC 3324 revealed by JWST

B. von Rekowski et al.(2002) Structured outflow from dynamo active accretion disc

P. J. Rodenkirchen et al (2020) Global axisymmetric simulations of photoevaporation and magnetically driven protoplanetary disk winds

S. Sheikhnezami et al. (2012) Bipolar jets launched from magnetically diffusive accretion disks. I. Ejection efficiency vs field strength and diffusivity

S. Sheikhnezami, C. Fendt (2018) Long-term simulation of MHD jet launching from an orbiting star-disk system

H. C. Spruit (2009) Theory of magnetically powered jets

D. Stepanovs, C. Fendt (2014) Modeling MHD Accretion-Ejection - from the Launching Area to Propagation Scales

D. Stepanovs, C. Fendt, S. Sheikhnezami (2014) Modelling MHD accretion-ejection - episodic ejections of jets triggered by a mean-field disk dynamo

D. Stepanovs, C. Fendt (2016) An extensive numerical survey of the correlation between outflow dynamics and accretion disk magnetization

Akkretion, Scheibenwinde und Planetenentstehung

M. Alessi, R. E. Pudritz (2022) Combined Effects of Disk Winds & Turbulence-Driven Accretion on Planet Populations

A. Bastani (2021) Eine neue Art Planeten zu bilden

H. Deng, L. Mayer, R. Helled, Nature Astronomy (2021) Formation of intermediate-mass planets via magnetically controlled disk fragmentation

R. V. E. Lovelace, M. M. Romanova, A. W. Barnard (2008) Planet migration and disc destruction due to magneto-centrifugal stellar winds

Staub-, Planetesimal- und Protoplanetenbildung

K. Batygin (2018) On the Terminal Rotation Rates of Giant Planets

O. Gressel,  R. P. Nelson, N. J. Turner (2011) On the dynamics of planetesimals embedded in turbulent protoplanetary discs with dead zones

M. Flock, A. Mignone (2021) Streaming instability in a global patch simulation of protoplanetary disks

Y. Kawasaki, S. Koga, M. N. Machida (2022) Dust coagulation and fragnentation in a collapsing cloud core and their influence on non-ideal magnetohydrodynamic effects

E. Klahn, H. Grosshans (2019) Modeling the agglomeration of electrostatically charged particles

M. Kruss, G. Wurm (2018) Seeding the Formation of Mercurys: An Iron-sensitive Bouncing Barrier in Disk Magnetic Fields

NAOJ (2021) Stellar “Ashfall” Could Help Distant Planets Grow

L. Magtaliati (2018) Giant Planets - Magnetic Brake

W. F. McDonough, T. Yoshizaki (2021) Terrestrial panet compositions controlled by accretion disk magnetic field

R. P. Nelson, O. Gressel (2002) On the dynamics of planetesimals embedded in turbulent protoplanetary discs

K. Pattle et al. (2022) Magnetic fields in star formation: from clouds to cores

A. Scheinberg et al. (2017) Magnetic Fields on Asteroids and Planetesimals

Science (2021) Stellar “Ashfall” Could Help Distant Planets Grow

T. Steinpilz et al. (2021) Electrical charging overcomes the bouncing barrier in planet formation

J. M. Simon (2016) The Influence of Magnetic Field Geometry on the Formation of Close-In Exoplanets

C. Spalding (2018) The Primordial Solar Wind as a Sculptor of Terrestrial Planet Formation

Y. Tsukamoto , M. N. Machida , S.- I. Inutsuka (2021) “Ashfall” Induced by Molecular Outflow in Protostar Evolution

G. Wurm (2018) Selective Aggregation Experiments on Planetesimal Formation and Mercury-Like Planets

Migrationsbewegungen von Gasen und Staubpartikeln, Planetesimalen und Protoplaneten

G. H.-M. Bertrang, P. C. Cortés, M. Flock (2018) Magnetic fields in disks: A solution to an polarized ambiguity

M. Flock et al. (2017) Radiation Hydrodynamical Turbulence in Protoplanetary Disks - Numerical Models and Observational Constraints

J. C. B. Papaloizou (2006) Disk-Planet Interactions During Planet Formation

A. L. Uribe et al. (2011) Three-dimensional Magnetohydrodynamic Simulations of Planet Migration in Turbulent Stratified Disks

Protoplanetare Dynamos

C. Maurel et al. (2021) A Long‐Lived Planetesimal Dynamo Powered by Core Crystallization

J. Zhang, L. Rogers (2022) Thermal Evolution and magnetic history of rocky planets

Magnetische Exoplaneten

L. Ben-Jaffe (2022) Signatures of strong magnetization and a metal-poor atmosphere for a Neptune-sized exoplanetmetal-poor atmosphere for a Neptune-sized exoplanet

S. Carolan et al, (2021) The Effects of Magnetic Fields on Observational Signatures of Atmospheric Escape in Exoplanets: Double Tail Structures

P. Driscoll, P. Olson (2011) Optimal dynamos in the cores of terrestrial exoplanets: Magnetic field generation and detectability

A. A. Vidotto, M. Jardine, Ch. Helling (2010) Prospects for detection of exoplanet magnetic fields through bow-shock observations during transitsobservations during transits

Magnetische Wechselwirkung zwischen Stern und Planeten

B. C. Bromley, S. J. Kenyon (2022) Magnetic interactions in orbital dynamics

S. B. Das et al. (2019) Modeling Star–Planet Interactions in Far-out Planetary and Exoplanetary Systems

J. - M. Grießmeier (2006)  Aspects of the magnetosphere-stellar wind interaction of close-in extrasolar planets

T. Matsakos1, A. Uribe1. A. Königl (2015) Classification of magnetized star–planet interactions: bow shocks, tails, and inspiraling flows

A. Strugarek et al (2015) Magnetic games between a planet and its host star: The Key Role of Topology

A. Strugarek (2017) Models of Star-Planet Magnetic Interaction

A. Strugarek (2021) Physics of star-planet magnetic interactions

Entstehung sonnenähnlicher Planetensysteme

Y. Imaeda, T. Ebisuzaki (2016) United Theory of Planet Formation (I):Tandem Regime

Y. Imaeda, T. Ebisuzaki (2016) Tandem planet formation for solar system-like planetary systems

Y. Imaeda, T. Ebisuzaki (2016) Single planet formation regime in the high-ionization environment: Possible origin of hot Jupiters and super-Earths

S. N. Raymond, A. Izidoro, A. Morbidelli (2018) Solar System Formation in the Context of Extra-Solar Planets

C. Zhong (2020) Formation and Change of Planetary Magnetic Field

Simultane Stern- und Planetenentstehung

F. O. Alves et al. (2020) A Case of Simultaneous Star and Planet Formation

D. Turrini (2022) Exploring the link between star and planet formation eith Ariel

Magnetische Prozesse

Y.-N. Lee et al (2021) Universal Protoplanetary Disk Size under Complete Nonideal Magnetohydrodynamics: The Interplay between Ion-neutral Friction, Hall Effect, and Ohmic Dissipation

Ambipolare Diffusion

A. V. Phelps (1990) The Diffusion of Charged Particles in Collisional Plasmas: Free and Ambipolar Diffusion at Low and Moderate Pressures

Physik für alle! Ambipolare Diffusion

M. T. Power (2018) On the Theory of Ambipolar Diffusion, With Applications toAstrophysical Jets

E. G. Zweibel (2014) Ambipolar Diffusion

K. Wiesemann (1976) Ambipolare Diffusion, Diffusionsmoden

Hall-Effekt

C. R. Braiding (2011) Star Formation and the Hall Effect

H. Fukuyama, H. Ebisawa, Y. Wada (1969) Theory of Hall Effect. I

B. Zhao et al. (2020) Hall effect in protostellar disc formation and evolution

Magnetischer Auftrieb

S. Hackstein Magnetic Buoyancy (Auftrieb)

S. A. Khaibrakhmanov, A. E. Dudorov (2017) Magnetic field buoyancy in accretion disks of young stars

U. v. Kusserow (2013) Magnetischer Auftrieb

J. B. Moss, T. S. Wood, P. J. Bushby (2022) Validity of sound-proof approximations for magnetic buoyancy

U. Torkelsson (1993) Magnetic buoyancy in accretion disks

G. Vasil, N. H. Brummell (2008) Magnetic Buoyancy Instabilities of a Shear-generated Magnetic Layer

Magnetische Diffusion

Magnetische Rekonnexion

R. Beg, A. J. B. Russell, G. Hornig (2022) Evolution, structure and topology of self-generated turbulent reconnection layers

G. Hornig, E. R. Priest (2003) Evolution of magnetic flux in an isolated reconnecion process

G. Hornig (2004) Basics of 3D reconnection theory

G. Hornig (2004) Magnetic Reconnection: Basic Concepts I

U. v. Kusserow Schlagwort-Archive: Magnetische Rekonnexion

U. v. Kusserow (2018) Kosmische Dynamos und magnetische Rekonnexionsprozesse

U. v. Kusserow (2018) Kosmische Dynamos und magnetische Rekonnexionsprozesse (Teil 1)

U. v. Kusserow (2018) Kosmische Dynamos und magnetische Rekonnexionsprozesse (Teil 2)

E. R. Priest, D. I. Pontin (2004) Magnetic Reconnection

Magnetorotations-Instabilität

S. A. Balbus, J. F. Hawlwey (1991) A Powerful Local Shear Instability in Weakly Magnetized Disks. I. Linear Analysis

S. A. Balbus, J. F. Hawlwey (1991) A Powerful Local Shear Instability in Weakly Magnetized Disks. II. Nonlinear Evolution

S. A. Balbus (2003) Enhanced Angular Momentum Transport in Accretion Disks

S. A. Balbus (2009) Magnetorotational instability

E. Devlen, A. Ulubay, E. R. Pekünlü (2020) Magnetorotational Instability in Diamagnetic, Misaligned Protostellar DiscsProtostellar Discs

D. M. H. Hung et al. (2018) Experimental Confirmation of the Standard Magnetorotational Instability Mechanism with a Spring-Mass Analogue

Ohmscher Widerstand

 

 

Videosequenzen

Protosternentstehung

R. Kayser (2018) Pfannkuchen statt Nadel

STARFORGE Star Formation in Gaseous Environments

M. Starr (2021) This Jaw-Dropping Simulation Gives Us Our Best Look Yet at Baby Stars Being Born

Protoplanetare Magnetische Akkretionsscheiben

X. Bai (2021) Magnetism in planet-forming disks and the solar nebula

C. Cui (2020) Magnetically-induced Substructures in Outer Protoplanetary Disks

H.Deng, L.Mayer, H.Latter (2020) Simultaneous simulation of gravitation and magnetism of a protoplanetary disk

A. Guseva (2021) Nonlinear dynamos: a data-driven approach

L. Hartmann (2018) Protostellar Infall and Protoplanetary Disk Accretion: Consequences for Disk Structure

Magnetisierte Winde und Jets

I. Gerrar, C. Federrath, R. Kuruwita (2019) The role of initial magnetic field structure in the launching of protostellar jets

G. Lesur, Institut de Planétologie et d'Astrophysique de Grenoble (2020) Dynamics of planet-forming discs : the role of magnetised winds

Entstehung von Planeten

L. Buchhave, University of Copenhagen (2013) Formation of Planets in a Protoplanetary Disk

J. Favre (2021) A new way of forming planets

A. Tomaswick () Magnetic Fields Help Shape the Formation of New Planets

Magnetische Exoplaneten

Cosmoknowledge (2021) We Just Detected The Magnetic Field Of An Exoplanet

 

Ulrich v. Kusserow

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D 28203 Bremen

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