论文信息 - Common envelope evolution: where we stand and how we can move forward - 字舞流文

Common envelope evolution: where we stand and how we can move forward

Chris L. Fryer | E. Gaburov | O. De Marco | Ph. Podsiadlowski | C. Fryer | R. Taam | R. Webbink | P. Podsiadlowski | S. Justham | N. Soker | N. Ivanova | T. Tauris | Zhanwen Han | Xuefei Chen | H. Ge | O. Marco | Z. Han | E. Glebbeek | E. V. Heuvel | T. M. Tauris | E. P. J. van den Heuvel | T. Marsh | N. Ivanova | T. Marsh | E. Gaburov | S. Justham | X. Chen | C. L. Fryer | H. Ge | E. Glebbeek | Z. Han | X.-D. Li | G. Lu | A. Potter | N. Soker | R. Taam | R. F. Webbink | E. V. D. Heuvel | X.-D. Li | A. Potter | X. Chen | G. Lu | G. Lu | Xiang-dong Li | G. Lu

[1] J. Lombardi,et al. Identification of the Long-Sought Common-Envelope Events , 2013, Science.

[2] G. Nelemans,et al. Supernova Type Ia progenitors from merging double white dwarfs - Using a new population synthesis model , 2012, 1208.6446.

[3] S. Bagnulo,et al. Magnetic fields in central stars of planetary nebulae , 2012, 1204.2697.

[4] M. Guerrero,et al. NGC 6778: a disrupted planetary nebula around a binary central star , 2012, 1201.2042.

[5] B. Paxton,et al. THE RESPONSE OF GIANT STARS TO DYNAMICAL-TIMESCALE MASS LOSS , 2011, 1111.4202.

[6] P. Ricker,et al. AN AMR STUDY OF THE COMMON-ENVELOPE PHASE OF BINARY EVOLUTION , 2011, 1107.3889.

[7] K. L. Page,et al. The unusual γ-ray burst GRB 101225A from a helium star/neutron star merger at redshift 0.33 , 2011, Nature.

[8] Daniel J. Price. Smoothed Particle Hydrodynamics: Things I wish my mother taught me , 2011, 1111.1259.

[9] Harry P. Warren,et al. NEW SOLAR EXTREME-ULTRAVIOLET IRRADIANCE OBSERVATIONS DURING FLARES , 2011 .

[10] N. Ivanova,et al. CAN WE TRUST MODELS FOR ADIABATIC MASS LOSS? , 2011, 1108.2752.

[11] M. van der Sluys,et al. On The Formation of Double White Dwarfs: Reevaluating How We Parametrize the Common Envelope Phase , 2011 .

[12] H. Boffin,et al. When asymmetric cosmic bubbles betray a difficult marriage: the study of binary central stars of Planetary Nebulae , 2011, 1108.0389.

[13] Chris L. Fryer,et al. SIMULATING THE COMMON ENVELOPE PHASE OF A RED GIANT USING SMOOTHED-PARTICLE HYDRODYNAMICS AND UNIFORM-GRID CODES , 2011, 1107.5072.

[14] U. Southampton,et al. Is the common envelope ejection efficiency a function of the binary parameters , 2011, 1106.4741.

[15] Zhanwen Han,et al. TIDALLY ENHANCED STELLAR WIND: A WAY TO MAKE THE SYMBIOTIC CHANNEL TO TYPE Ia SUPERNOVA VIABLE , 2011, 1106.1252.

[16] N. Soker,et al. A circumbinary disc in the final stages of common envelope and the core-degenerate scenario for Type Ia supernovae , 2011, 1105.5698.

[17] H. Bond. HUBBLE SPACE TELESCOPE IMAGING OF THE OUTBURST SITE OF M31 RV. II. NO BLUE REMNANT IN QUIESCENCE , 2011, 1105.4595.

[18] K. Stȩpień,et al. Evolution of the progenitor binary of V1309 Scorpii before merger , 2011, 1105.2627.

[19] L. Chen,et al. IMPLICATIONS FOR THE BLAZAR SEQUENCE AND INVERSE COMPTON MODELS FROM FERMI BRIGHT BLAZARS , 2011, 1105.0716.

[20] S. Chaichenets,et al. COMMON ENVELOPE: ENTHALPY CONSIDERATION , 2011, 1103.2790.

[21] N. Soker,et al. The Role of Planets in Shaping Planetary Nebulae , 2011, 1102.4647.

[22] M. V. van der Sluys,et al. ON THE FORMATION OF DOUBLE WHITE DWARFS THROUGH STABLE MASS TRANSFER AND A COMMON ENVELOPE , 2011, 1102.1039.

[23] N. Ivanova. COMMON ENVELOPE: ON THE MASS AND THE FATE OF THE REMNANT , 2011, 1101.2863.

[24] R. Corradi,et al. ETHOS 1: a high-latitude planetary nebula with jets forged by a post-common-envelope binary central star , 2010, 1012.3331.

[25] K. Dooley,et al. TWIN BINARIES: STUDIES OF STABILITY, MASS TRANSFER, AND COALESCENCE , 2010, 1009.1300.

[26] L. Schmidtobreick,et al. Evolution of compact binaries : proceedings of a workshop held at Hotel San Martín, Viña del Mar, Chile, 6-11 May 2011 , 2011 .

[27] K. Ulaczyk,et al. V1309 Scorpii: merger of a contact binary , 2010, 1012.0163.

[28] Jens Rodmann,et al. A Giant Planet Around a Metal-Poor Star of Extragalactic Origin , 2010, Science.

[29] R. Webbink. Watch This Space: Observing Merging White Dwarfs , 2010, 1011.6317.

[30] N. Ivanova,et al. The Formation of Low-Mass Double White Dwarfs through an Initial Phase of Stable Non-Conservative Mass Transfer , 2010, 1011.4525.

[31] Chris L. Fryer,et al. Delay times and rates for type Ia supernovae and thermonuclear explosions from double-detonation sub-Chandrasekhar mass models , 2010, 1011.1407.

[32] B. Paxton,et al. On the α formalism for the common envelope interaction , 2010, 1010.4374.

[33] C. Giammanco,et al. The Necklace: equatorial and polar outflows from the binary central star of the new planetary nebula IPHASX J194359.5+170901 , 2010, 1009.1043.

[34] V. Springel. Smoothed Particle Hydrodynamics in Astrophysics , 2010, 1109.2219.

[35] R. Taam,et al. ADIABATIC MASS LOSS AND THE OUTCOME OF THE COMMON ENVELOPE PHASE OF BINARY EVOLUTION , 2010, 1007.1036.

[36] B. Gansicke,et al. Post-common-envelope binaries from SDSS. IX: Constraining the common-envelope efficiency , 2010, 1006.1621.

[37] R. Webbink,et al. ADIABATIC MASS LOSS IN BINARY STARS. I. COMPUTATIONAL METHOD , 2010, 1005.3099.

[38] Adam A. Miller,et al. PTF 10fqs: A LUMINOUS RED NOVA IN THE SPIRAL GALAXY MESSIER 99 , 2010, 1005.1455.

[39] Kun Jia,et al. The binding energy parameter for common envelope evolution , 2010, 1004.4957.

[40] Thomas Bensby,et al. The peculiar nova V1309 Scorpii/nova Scorpii 2008 - A candidate twin of V838 Monocerotis , 2010, 1004.3600.

[41] S. Rappaport,et al. Explosive common-envelope ejection: implications for gamma-ray bursts and low-mass black-hole binaries , 2010, 1004.0249.

[42] K. S. Thorne,et al. Predictions for the rates of compact binary coalescences observable by ground-based gravitational-wave detectors , 2010, 1003.2480.

[43] C. Wolf,et al. Helium-rich hot subdwarfs and single low-mass white dwarfs: formation mechanisms and further implications , 2010 .

[44] C. Tout,et al. Magnetic field evolution of white dwarfs in strongly interacting binary star systems , 2009, 0911.3657.

[45] Ealeal Bear,et al. Spinning-up the envelope before entering a common envelope phase , 2009, 0910.0522.

[46] J. Lombardi,et al. On the onset of runaway stellar collisions in dense star clusters – II. Hydrodynamics of three-body interactions , 2009, 0904.0997.

[47] P. Podsiadlowski,et al. A binary merger model for the formation of the Supernova 1987A triple-ring nebula , 2009 .

[48] N. Soker,et al. NGC 300 OT2008-1 AS A SCALED-DOWN VERSION OF THE ETA CARINAE GREAT ERUPTION , 2009, 0909.1909.

[49] W. Arnett,et al. Turbulent Mixing in Stars: Theoretical Hurdles , 2009, Proceedings of the International Astronomical Union.

[50] A. Acker,et al. Binary planetary nebulae nuclei towards the Galactic bulge - II. A penchant for bipolarity and low-ionisation structures , 2009, 0907.2463.

[51] J. Farihi,et al. The WD perspective on the PN binary hypothesis , 2009 .

[52] Stephan Rosswog,et al. Astrophysical smooth particle hydrodynamics , 2009, 0903.5075.

[53] U. Kolb,et al. A comprehensive population synthesis study of post‐common envelope binaries , 2009, 0903.4152.

[54] M. Davies,et al. Mass transfer in eccentric binaries: the new oil-on-water smoothed particle hydrodynamics technique , 2009, 0902.3509.

[55] O. Marco. The Origin and Shaping of Planetary Nebulae: Putting the Binary Hypothesis to the Test , 2009, 0902.1137.

[56] A. Acker,et al. Binary planetary nebulae nuclei towards the Galactic bulge - I. Sample discovery, period distribution, and binary fraction , 2009, 0901.4419.

[57] E. Berger,et al. AN INTERMEDIATE LUMINOSITY TRANSIENT IN NGC 300: THE ERUPTION OF A DUST-ENSHROUDED MASSIVE STAR , 2009, 0901.0710.

[58] J. Prieto,et al. THE 2008 LUMINOUS OPTICAL TRANSIENT IN THE NEARBY GALAXY NGC 300 , 2009, 0901.0198.

[59] Christopher S. Kochanek,et al. A NEW CLASS OF LUMINOUS TRANSIENTS AND A FIRST CENSUS OF THEIR MASSIVE STELLAR PROGENITORS , 2008, 0809.0510.

[60] S. Korotkiy,et al. V1309 Scorpii = Nova Scorpii 2008 , 2008 .

[61] J. Pringle,et al. Binary star origin of high field magnetic white dwarfs , 2008, 0805.0115.

[62] A. Smith,et al. BINARY CENTRAL STARS OF PLANETARY NEBULAE DISCOVERED THROUGH PHOTOMETRIC VARIABILITY. I. WHAT WE KNOW AND WHAT WE WOULD LIKE TO FIND OUT , 2008, 0804.2436.

[63] Zhanwen Han,et al. Mass transfer from a giant star to a main-sequence companion and its contribution to long-orbital-period blue stragglers , 2008, 0804.2294.

[64] Xuefei Chen,et al. Initial-final mass relationship for stars of different metallicities , 2007, 0710.2397.

[65] Zhanwen Han,et al. The single degenerate channel for the progenitors of Type Ia supernovae , 2008, Proceedings of the International Astronomical Union.

[66] Chris L. Fryer,et al. Constraints on Type Ib/c Supernovae and Gamma‐Ray Burst Progenitors , 2007 .

[67] P. Ricker,et al. The Interaction of Stellar Objects within a Common Envelope , 2007, 0710.3631.

[68] E. Ofek,et al. The Environment of M85 Optical Transient 2006-1: Constraints on the Progenitor Age and Mass , 2007, 0710.3192.

[69] Daniel J. Price. SPLASH: An Interactive Visualisation Tool for Smoothed Particle Hydrodynamics Simulations , 2007, Publications of the Astronomical Society of Australia.

[70] E. O. Ofek,et al. An unusually brilliant transient in the galaxy M85 , 2007, Nature.

[71] P. Podsiadlowski,et al. The Triple-Ring Nebula Around SN 1987A: Fingerprint of a Binary Merger , 2007, Science.

[72] T. Bulik,et al. On the Rarity of Double Black Hole Binaries: Consequences for Gravitational Wave Detection , 2006, astro-ph/0612032.

[73] Belfast,et al. Proof of polar ejection from the close-binary core of the planetary nebula Abell 63 , 2006, astro-ph/0611268.

[74] A. Frank,et al. Isolated versus common envelope dynamos in planetary nebula progenitors , 2006, astro-ph/0609726.

[75] P. Podsiadlowski,et al. Massive Binary Mergers: A Unique Scenario for the sgB[e] Phenomenon? , 2006 .

[76] N. Ivanova. Low-Mass X-Ray Binaries with Pre-Main-Sequence Companions , 2006, astro-ph/0611235.

[77] P. Ricker,et al. Common Envelope Evolution , 2006, astro-ph/0611043.

[78] A. Zijlstra. Binary central stars of planetary nebulae , 2006, astro-ph/0610558.

[79] O. Pols,et al. Modelling the formation of double white dwarfs , 2006, astro-ph/0610492.

[80] P. F. L. Maxted,et al. Survival of a brown dwarf after engulfment by a red giant star , 2006, Nature.

[81] Wen-Cong Chen,et al. Evolution of black-hole intermediate-mass X-ray binaries , 2006, Proceedings of the International Astronomical Union.

[82] P. Eggleton. Evolutionary Processes in Binary and Multiple Stars , 2006 .

[83] R. Webbink. Common Envelope Evolution Redux , 2006, 0704.0280.

[84] K. Nomoto,et al. Thermal Stability of White Dwarfs Accreting Hydrogen-rich Matter and Progenitors of Type Ia Supernovae , 2006, astro-ph/0603351.

[85] W. Vlemmings,et al. A magnetically collimated jet from an evolved star , 2006, Nature.

[86] P. Podsiadlowski,et al. Double‐core evolution and the formation of neutron star binaries with compact companions , 2006, astro-ph/0602510.

[87] Ph. Podsiadlowski,et al. Magnetic braking of Ap/Bp stars: application to compact black-hole X-ray binaries , 2005, astro-ph/0511760.

[88] H. Bond,et al. Hubble Space Telescope Imaging of the Outburst Site of M31 RV , 2005, astro-ph/0510401.

[89] P. Podsiadlowski,et al. Anisotropic mass ejection in binary mergers , 2005, astro-ph/0502288.

[90] N. Soker. Why Magnetic Fields Cannot Be the Main Agent Shaping Planetary Nebulae , 2005, astro-ph/0501647.

[91] Michael S. Warren,et al. SNSPH: A Parallel Three-dimensional Smoothed Particle Radiation Hydrodynamics Code , 2005, astro-ph/0512532.

[92] P. Podsiadlowski,et al. The Triple Ring Nebula around SN 1987A , 2005 .

[93] K. Dooley,et al. Stellar Collisions and Ultracompact X-Ray Binary Formation , 2005, astro-ph/0509511.

[94] R. Taam,et al. Angular Momentum Losses and the Orbital Period Distribution of Cataclysmic Variables below the Period Gap: Effects of Circumbinary Disks , 2005, astro-ph/0509355.

[95] U. Heber,et al. High resolution spectroscopy of bright subdwarf B stars - I. Radial velocity variables , 2005, astro-ph/0507024.

[96] R. Tylenda. Evolution of V838 Monocerotis during and after the 2002 eruption , 2005, astro-ph/0502060.

[97] N. Soker,et al. On the progenitor of V838 Monocerotis , 2004, astro-ph/0412183.

[98] G. Nelemans,et al. Reconstructing the evolution of white dwarf binaries: further evidence for an alternative algorithm for the outcome of the common-envelope phase in close binaries , 2004, astro-ph/0410301.

[99] Lars Hernquist,et al. Comparing AMR and SPH Cosmological Simulations. I. Dark Matter and Adiabatic Simulations , 2003, astro-ph/0312651.

[100] N. Soker. Energy and angular momentum deposition during common envelope evolution , 2003, astro-ph/0311168.

[101] R. Taam,et al. Thermal Timescale Mass Transfer and the Evolution of White Dwarf Binaries , 2003, astro-ph/0310126.

[102] A. Udalski. The Optical Gravitational Lensing Experiment. Real Time Data Analysis Systems in the OGLE-III Survey , 2003, astro-ph/0401123.

[103] A. Retter,et al. A model of an expanding giant that swallowed planets for the eruption of V838 Monocerotis , 2003, astro-ph/0309341.

[104] R. Taam,et al. Wolf-Rayet Central Stars and the Binary Evolution Channel , 2003 .

[105] R. Corradi,et al. An energetic stellar outburst accompanied by circumstellar light echoes , 2003, Nature.

[106] T. Tauris,et al. Galactic distribution of merging neutron stars and black holes – prospects for short gamma-ray burst progenitors and LIGO/VIRGO , 2003, astro-ph/0303227.

[107] P. Maxted,et al. The origin of subdwarf B stars – II , 2003, astro-ph/0301380.

[108] P. Podsiadlowski,et al. The Progenitor of SN 1987A: A Progress Report , 2003 .

[109] Noam Soker,et al. Main-Sequence Stellar Eruption Model for V838 Monocerotis , 2002, astro-ph/0210463.

[110] Oxford,et al. The Slow Merger of Massive Stars , 2002, astro-ph/0210368.

[111] P. Eggleton. Envelope Ejection: An Alternative Evolutionary Process for Some Early Case B Binaries , 2002, astro-ph/0209203.

[112] P. Maxted,et al. The origin of subdwarf B stars – I. The formation channels , 2002, astro-ph/0206130.

[113] N. Ivanova. Slow mergers of massive stars , 2002 .

[114] C. Tout,et al. Exotic Stars as Challenges to Evolution , 2002 .

[115] P. Podsiadlowski,et al. The Slow Merger of Massive Stars: Merger Types and Post-Merger Evolution , 2002 .

[116] K. Blundell,et al. Images of an Equatorial Outflow in SS 433 , 2001, astro-ph/0109504.

[117] P. Podsiadlowski,et al. Hydrodynamical simulations of the stream–core interaction in the slow merger of massive stars , 2001, astro-ph/0109524.

[118] Philipp Podsiadlowski,et al. Submitted to ApJ Preprint typeset using L ATEX style emulateapj v. 21/08/00 EVOLUTIONARY BINARY SEQUENCES FOR LOW- AND INTERMEDIATE-MASS X-RAY BINARIES , 2001 .

[119] Peter P. Eggleton,et al. Orbital Evolution in Binary and Triple Stars, with an Application to SS Lacertae , 2001, astro-ph/0104126.

[120] T. Tauris,et al. Research Note On the binding energy parameter of common envelope evolution - Dependency on the definition of the stellar core boundary during spiral-in , 2001, astro-ph/0101530.

[121] N. Soker,et al. The ‘second parameter’: a memory from the globular cluster formation epoch , 2000, astro-ph/0009090.

[122] R. Webbink,et al. A Self-Consistent Binary Population Synthesis Model , 2001 .

[123] T. Tauris,et al. Spin-Orbit Coupling in X-ray Binaries , 2001 .

[124] E.P.J. van den Heuvel,et al. The Neutron Star-Black Hole Connection , 2001 .

[125] A. R. King,et al. Evolution of Binary and Multiple Star Systems; A Meeting in Celebration of Peter Eggleton's 60th Birthday , 2001 .

[126] B. Fryxell,et al. FLASH: An Adaptive Mesh Hydrodynamics Code for Modeling Astrophysical Thermonuclear Flashes , 2000 .

[127] J. Tauris. On the energy equation and efficiency parameter of the common envelope evolution , 2000, astro-ph/0007034.

[128] G. Nelemans,et al. Reconstructing the evolution of double helium white dwarfs: envelope loss without spiral-in , 2000, astro-ph/0006216.

[129] Leicester,et al. The violent past of Cygnus X-2 , 2000, astro-ph/0003441.

[130] T. Tauris,et al. Formation of Millisecond Pulsars with Heavy White Dwarf Companions: Extreme Mass Transfer on Subthermal Timescales , 2000, The Astrophysical journal.

[131] H. E. Schwarz,et al. High-Velocity Collimated Outflows in Planetary Nebulae: NGC 6337, He 2-186, and K4-47 , 1999, astro-ph/9912465.

[132] N. Soker,et al. Rotation, planets, and the second parameter of the horizontal branch , 1999, astro-ph/9911003.

[133] S. Rappaport,et al. Cygnus X-2: The Descendant of an Intermediate-Mass X-Ray Binary , 1999, astro-ph/9906045.

[134] Ronald E. Taam,et al. Common Envelope Evolution of Massive Binary Stars , 2000 .

[135] T. Tauris,et al. On the ?-Parameter of the Common Envelope Evolution , 2000 .

[136] S. Rappaport,et al. Asymmetrical Planetary Nebulae II: From Origins to Microstructures , 2000 .

[137] H. Bond. Binarity of Central Stars of Planetary Nebulae , 1999, astro-ph/9909516.

[138] Chris L. Fryer,et al. To be submitted to The Astrophysical Journal Formation Rates of Black Hole Accretion Disk Gamma-Ray Bursts , 1999 .

[139] Andrew R. King,et al. Radiatively Driven Outflows and Avoidance of Common-Envelope Evolution in Close Binaries , 1999, astro-ph/9904105.

[140] P. Podsiadlowski. Common-Envelope Evolution and Stellar Mergers , 1999 .

[141] A. King,et al. Cygnus X-2, super-Eddington mass transfer, and pulsar binaries , 1998, astro-ph/9812343.

[142] J. Beuzit,et al. New neighbours. I. 13 new companions to nearby M dwarfs , 1998, astro-ph/9812008.

[143] G. Nelemans,et al. Formation of undermassive single white dwarfs and the influence of planets on late stellar evolution , 1998, astro-ph/9806011.

[144] Chris L. Fryer,et al. Helium Star/Black Hole Mergers: A New Gamma-Ray Burst Model , 1998, astro-ph/9804167.

[145] N. Soker. Can Planets Influence the Horizontal Branch Morphology? , 1998, astro-ph/9803223.

[146] R. Taam,et al. Double Core Evolution. X. Through the Envelope Ejection Phase , 1998, astro-ph/9801230.

[147] N. Soker. Properties that Cannot Be Explained by the Progenitors of Planetary Nebulae , 1997 .

[148] E. Phinney,et al. Stability criteria for mass transfer in binary stellar evolution , 1997, astro-ph/9703016.

[149] N. Soker. What Planetary Nebulae Can Tell Us about Planetary Systems , 1996 .

[150] Chris L. Fryer,et al. The Dynamics and Outcomes of Rapid Infall onto Neutron Stars , 1995, astro-ph/9509144.

[151] R. Romani. The Formation and Evolution of Black-Hole Binaries , 1996 .

[152] V. Kalogera,et al. Formation of Low-Mass X-ray Binaries. I. Constraints on Hydrogen-Rich Donors at the Onset of the X-ray Phase , 1995, astro-ph/9508072.

[153] Michael S. Warren,et al. A portable parallel particle program , 1995 .

[154] E. Regős,et al. The effect of magnetic fields in common-envelope evolution on the formation of cataclysmic variables , 1995 .

[155] P. Podsiadlowski,et al. The formation of bipolar planetary nebulae and close white dwarf binaries , 1995 .

[156] F. Rasio. The minimum mass ratio of W Ursae Majoris binaries , 1995, astro-ph/9502028.

[157] G. Brown. Neutron star accretion and binary pulsar formation , 1995 .

[158] P. Podsiadlowski,et al. A possible criterion for envelope ejection in asymptotic giant branch or first giant branch stars , 1994 .

[159] Michael S. Warren,et al. Skeletons from the treecode closet , 1994 .

[160] S. Zwart,et al. Quick method for calculating energy dissipation in tidal interaction , 1993 .

[161] M. Livio,et al. COMMON ENVELOPES IN BINARY STAR EVOLUTION , 1993 .

[162] R. Chevalier. Neutron Star Accretion in a Stellar Envelope , 1993 .

[163] S. Shapiro,et al. Hydrodynamic instability and coalescence of close binary systems , 1993 .

[164] J. Zahn. Circulation and turbulence in rotating stars , 1992 .

[165] P. Podsiadlowski. THE PROGENITOR OF SN 1987A , 1992 .

[166] P. Podsiadlowski,et al. Presupernova Evolution in Massive Interacting Binaries , 1992 .

[167] N. Soker. Jet formation in the transition from the asymptotic giant branch to planetary nebulae , 1992 .

[168] D. Vanbeveren. The evolution of massive close binaries revised. , 1991 .

[169] A. Fabian,et al. Origin of the Napoleon's hat nebula around SN1987A and implications for the progenitor , 1991, Nature.

[170] R. Chevalier,et al. Steady spherical hypercritical accretion onto neutron stars , 1991 .

[171] R. Taam,et al. The Response of Main-Sequence Stars within a Common Envelope , 1991 .

[172] P. Podsiadlowski. Running rings around supernova 1987A , 1991, Nature.

[173] C. Clarke,et al. The effect of an external disk on the orbital elements of a central binary , 1991 .

[174] M. Kool. Common Envelope Evolution and Double Cores of Planetary Nebulae , 1990 .

[175] M. Livio,et al. Morphologies of Planetary Nebulae Ejected by Close-Binary Nuclei , 1990 .

[176] J. Zahn. Tidal evolution of close binary stars. I - Revisiting the theory of the equilibrium tide , 1989 .

[177] M. Livio,et al. The common envelope phase in the evolution of binary stars , 1988 .

[178] C. Tout,et al. Tidal enhancement by a binary companion of stellar winds from cool giants , 1988 .

[179] M. S. Hjellming,et al. Thresholds for rapid mass transfer in binary systems. I. Polytropic models , 1987 .

[180] I. Iben,et al. Tidal interaction and coalescence of close binary white dwarfs , 1987 .

[181] Piet Hut,et al. A hierarchical O(N log N) force-calculation algorithm , 1986, Nature.

[182] R. Webbink. Late stages of close binary systems – clues to common envelope evolution , 1986 .

[183] R. Taam,et al. Double-core evolution. II - Two-dimensional hydrodynamic effects , 1984 .

[184] R. Webbink. Double white dwarfs as progenitors of R Coronae Borealis stars and type I supernovae , 1984 .

[185] A. V. Tutukov,et al. Supernovae of type I as end products of the evolution of binaries with components of moderate initial mass (M< or approx. =9 M/sub sun/) , 1984 .

[186] M. Morris. Models for the structure and origin of bipolar nebulae , 1981 .

[187] T. N. Stevenson,et al. Fluid Mechanics , 2021, Nature.

[188] P. Hut. Stability of tidal equilibrium , 1980 .

[189] K. Nomoto,et al. Rapid Mass Accretion onto White Dwarfs and Formation of an Extended Envelope , 1979 .

[190] M. Begelman. Can a spherically accreting black hole radiate very near the Eddington limit , 1979 .

[191] F. Bateson,et al. Changing trends in variable star research , 1979 .

[192] R. Webbink. The Evolutionary Significance of Recurrent Novae , 1979 .

[193] R. Taam,et al. Double core evolution. I. A 16 M/sub sun/ star with a 1 M/sub sun/ neutron-star companion , 1978 .

[194] S. Kwok,et al. On the origin of planetary nebulae. , 1978 .

[195] K. Thorne,et al. Stars with degenerate neutron cores. I. structure of equilibrium models , 1977 .

[196] J. Zahn. Tidal friction in close binary stars , 1977 .

[197] R. Webbink. The evolution of low-mass close binary systems. I. The evolutionary fate of contact binaries , 1975 .

[198] P. Eggleton,et al. Structure and Evolution of Close Binary Systems , 1976 .

[199] E. Heuvel,et al. Late Stages of Close Binary Systems , 1976 .

[200] B. Paczyński. Common Envelope Binaries , 1976 .

[201] K. Thorne,et al. Red giants and supergiants with degenerate neutron cores , 1975 .

[202] S. Refsdal,et al. On the binary system AS Eri. , 1974 .

[203] J. Whelan,et al. Binaries and Supernovae of Type I , 1973 .

[204] W. Sparks,et al. Supernova: the result of the death spiral of a white dwarf into a red giant , 1973 .

[205] R. Syunyaev,et al. Galaxy Nuclei and Quasars as Infrared Emission Sources. , 1972 .

[206] B. Paczyński,et al. Evolution of close binaries. Part 8. Mass exchange on the dynamical time scale , 1972 .

[207] Bohdan Paczynski. The Formation of Planetary Nebulae , 1971 .

[208] W. Deinzer,et al. The Evolution of a Red Giant after Rapid Mass Loss, and the Harman-Seaton Sequence , 1970 .

[209] Y. Zel’dovich,et al. ADIABATIC OUTFLOW FROM A STAR AND EQUILIBRIUM STATES WITH EXCESS ENERGY. , 1967 .

[210] G. Abell,et al. ON THE ORIGIN OF PLANETARY NEBULAE , 1966 .

[211] Yoshihide Kozai,et al. Secular perturbations of asteroids with high inclination and eccentricity , 1962 .

[212] George Howard Darwin,et al. VIII. The determination of the secular effects of tidal friction by a graphical method , 1879, Proceedings of the Royal Society of London.