Multi-Planet Systems - Detection and Dynamics (C.Beaugé, S.Ferraz-Mello & T.A.Michtchenko). Research in Astronomy and Astrophysics (in press) (Preprint)
The periodic and
chaotic regimes of motion in the exoplanet 2/1 mean-motion resonance
(T.A.Michtchenko, S.Ferraz-Mello & C.Beaugé) In: "3.La Plata
International School on Astronomy and Geophysics", (P.
Cincotta et al. eds.) Assoc. Argemntina Astron. (in press) (astro-ph.EP 1112.1208)
A new analysis of
the GJ581 extrasolar planetary system (M.Tadeu dos Santos, G.G.Silva,
S. Ferraz-Mello & T.A.Michtchenko, Celestial Mechanics and
Dynamical Astronomy, 113, 49-62 (2012) (astro-ph.EP 1203.3140v1)
Tidal evolution
of a close-in planet with a more massive outer companion (A.Rodríguez,
S.Ferraz-Mello, T.A.Michtchenko, C.Beaugé & O.Miloni)IAU Symposium 276, 508 (2011)
Angular momentum exchange during secular migration of two-planet systems (A.Rodríguez, T.A.Michtchenko & O.Miloni) Celestial Mechanics and Dynamical Astronomy, 111, 161 (2011) (astro-ph.EP 1106.0014)
Modelling the secular evolution of migrating planet pairs (T.A.Michtchenko & A.Rodríguez) Monthly
Notices of the Royal Astronomical Society 415, 2275 (2011) (astro-ph.EP 1103.5485)
Tidal decay and
orbital circularization in close-in two-planet systems (A.Rodríguez,
S.Ferraz-Mello, T.A. Michtchenko, C.Beaugé & O.Miloni) Monthly
Notices of the Royal Astronomical Society 415, 2349 (2011) (astro-ph.EP 1104.0964)
On the mass
determination of super-Earths orbiting active stars: the CoRoT-7 system
(S.Ferraz-Mello, M. Tadeu dos Santos, C.Beaugé, T.A.Michtchenko &
A.Rodríguez, A., Astronomy
and Astrophysics,531, A161 (2011) (astro-ph.EP 1011.2144)
Secular behavior of a pair of coplanar planets (T.A.Michtchenko & S.Ferraz-Mello) AIP Conference Proceedings, 1283, 32-39 (2010).
Dynamics of two planets in co-orbital motion (C.A.Giuppone, C.Beaugé, T.A.Michtchenko & S.Ferraz-Mello) , S., Monthly
Notices of the Royal Astronomical Society, 407, 390-398 (2010) (astro-ph.EP 1004.0726)
Dynamical instabilities in planetary systems (T.A.Michtchenko, S.Ferraz-Mello & C.Beaugé) EAS Publications Series, 42, 315-331 (2010)
Detectability and Error Estimation
in Orbital Fits of Resonant Extrasolar Planets (C.A.Giuppone, M. Tadeu dos Santos, C. Beaugé, S.
Ferraz-Mello & T. A. Michtchenko) Astrophysical Journal699, 1321-1332 (2009) (astro-ph.EP /0905.0433v1)
Tidal
Friction in close-in satellites and exoplanets. The Darwin
theory revisited (A.
Rodríguez, S. Ferraz-Mello & H. Hussmann), Celestial
Mechanics and Dynamical Astronomy 101, 171-201 (2008) Errata: 104, 319-320 (2009)(astro-ph
0712-1156v3)
Dynamical Portrait of the 2/1 Mean-Motion Resonance. Part II: Systems with a more massive inner planet, (T.A. Michtchenko,
C.
Beaugé & S. Ferraz-Mello) Monthly
Notices of the Royal Astronomical Society 391, 215-227 (2008) (ADS)
Dynamical Portrait of the 2/1 Mean-Motion Resonance. Part I: Systems with a more massive outer planet, (T.A. Michtchenko,
C.
Beaugé & S. Ferraz-Mello) Monthly
Notices of the Royal Astronomical Society 387, 747-758 (2008) (ADS)
Reliability of orbital fits
for resonant Extrasolar Planetary Systems: The case of HD 82943. (C.Beaugé,
C.A.Giuppone, S. Ferraz-Mello & T.A.Michtchenko) Monthly
Notices of the Royal Astronomical Society 365, 2151 (2008) (ADS)
Orbital
Determination and
Dynamics of Resonant Extrasolar Planetary Systems. (C.
Beaugé,
S. Ferraz-Mello, T.A. Michtchenko & C.A. Giupppone)IAU Symposium 249, 427-440 (2008) (ADS)
Formation
and transformation of the 3:1 mean motion resonance in 55 Cancri system
(Li-Yong
Zhou, S. Ferraz-Mello & Yi-Sui Sun) IAU Symposium 249, 485-490 (2008) (ADS)
Tidal
Friction in close-in planets (A.
Rodríguez, S. Ferraz-Mello & H. Hussmann) IAU Symposium 249, 179-186 (2008) (ADS)
Planetary Masses
and Orbital Parameters from Radial Velocity Measurements (C.
Beaugé,
S. Ferraz-Mello & T.A.Michtchenko) In
"Extrasolar Planetary Systems", (R. Dvorak, ed.) Wiley-VCH,
Weinheim, pp. 1-25 (2007) (ADS)
Dynamics of
Extrasolar Planetary Systems (T.A.Michtchenko,
S. Ferraz-Mello & C. Beaugé) In
"Extrasolar Planetary Systems", (R.
Dvorak, ed.) Wiley-VCH,
Weinheim, pp. 151-178 (2007). (ADS)
Stationary
Orbits in Resonant Extrasolar Planetary Systems (T.A. Michtchenko,
C.
Beaugé & S. Ferraz-Mello) Celestial Mechanics and
Dynamical Astronomy 94,
381-397 (2006). (ADS)
Some
open questions in the dynamics of Extrasolar Planetary Systems
(S. Ferraz-Mello, C. Beaugé & T.A. Michtchenko)
In "Tenth anniversary of 51 Peg-b : Status of and prospects for hot
Jupiter
studies" (L. Arnold et al. eds.), Frontier, Paris, pp.295-302.(2006) (pdf)
Modeling
the 3-D Secular planetary three-body problem. Discussion of the upsilon
Andromedae planetary system
(T.A. Michtchenko, S. Ferraz-Mello
& C.Beaugé) Icarus, 181,
555-571 (2006) (astro-ph/0505169v2)(ADS)
Planetary
Migration and Extrasolar Planets in the 2/1 Mean-motion Resonance. (C.
Beaugé, S. Ferraz-Mello & T.A. Michtchenko) Monthly Notices
of the Royal Astronomical Society, 365, 1160-1170 (2006) (astro-ph/0404166)(ADS)
Dynamics
of two planets in the 3/2 resonance: Application to the planetary
system of the
pulsar PSR B1257+12
(N. Callegari Jr., S. Ferraz-Mello & T.A.
Michtchenko), Celestial Mechanics
and
Dynamical Astronomy 94,
381-297 (2006). (ADS)
Regular Motions in Extra-Solar Planetary
Systems (lectures)
(S. Ferraz-Mello,
T.A. Michtchenko & C. Beaugé) In "Chaotic Worlds: From Order
to
Disorder in Gravitational N-Body Systems" (B.A. Steves et al. eds.),
NATO
ASI Series. Vol.
227
pp. 255-288. Springer,
Dordrecht (2006) (astro-ph
0402335)
Extra-Solar Planetary Systems (lectures)
(S.Ferraz-Mello,
T.A.Michtchenko, C.Beaugé & N. Callegari Jr.) In "Chaos and
Stability in Planetary Systems" (R. Dvorak et al., eds.), Lecture Notes
in Physics, 683, 219-271
(2005)
Resonance and Stability of
Extra-Solar
Planetary Systems
(C. Beaugé, N. Callegari Jr., S. Ferraz-Mello &
T.A. Michtchenko) IAU Colloquium 197,
3-18 (2005) (ADS)
The orbits of the planets HD 82943 c,b
(S. Ferraz-Mello, T.A. Michtchenko & C. Beaugé)
Astrophysical Journal 621,
473-481 (2005) (astro-ph/0411734)(ADS)
Dynamics of Two Planets in the 2/1
Mean-Motion
Resonance
(N. Callegari Jr., T. A. Michtchenko & S. Ferraz-Mello) Celestial
Mechanics
and Dynamical Astronomy, 89 201-234(2004) (pdf).
Secular dynamics of the three body
problem:
application to
the upsilon Andromedae planetary system (T. A. Michtchenko & R.
Malhotra)
Icarus, 168, 237-248 (2004). (astro-ph/0307094).
Stability
of
terrestrial planets in the habitable zone of GI 777 A, HD72659, GI
614, 47 UMa and HD 4208 (N. Asghari
et al. & O.Miloni)
Astronomy
and Astrophysics,426, 353-365 (2004).
Extrasolar Planets in Mean-Motion
Resonance:
Apses
Alignment
and Asymmetric Stationary Solutions (C. Beaugé, S. Ferraz-Mello
& T.A. Michtchenko), Astrophysical Journal, 593, 1124-1133
(2003)(astro-ph/0219577)
Evolution of Migrating Planet Pairs
in
Resonance,
(S. Ferraz-Mello,
C. Beaugé & T.A. Michtchenko) Celestial Mechanics and
Dynamical
Astronomy, 87, 99-112 (2003) (astro-ph /0301252)
Modelling the high-eccentricity
planetary
three-body problem.
Application to the GJ876 planetary system (C. Beaugé & T.A.
Michtchenko) Monthly Notice of the Royal Astronomical Society, 341,
760-770 (2003).(pdf)
Extra-Solar Planetary Systems
(S.Ferraz-Mello
&
T.A.Michtchenko)
Revista Mexicana de Astronomía e Astrofísica (serie
conferencias), 14,
7-10 (2002).
Modeling the 5:2 mean-motion
resonance in the
Jupiter-Saturn
planetary system (T.A.Michtchenko & S.Ferraz-Mello), Icarus, 149,
357-374 (2001). (ADS)
Resonant
structure of the Outer Solar System in
the
neighborhood
of the Planets (T.Michtchenko & S.Ferraz-Mello),
Astronomical
Journal, 122,
474-481 (2001). (ADS)
Periodic
solutions of
the planetary
5:2-resonant
three-body
problem. (T.A.Michtchenko & S.Ferraz-Mello), In "New Developments
in the Dynamics of Planetary Systems" (R.Dvorak & J.Henrard,
eds.), Kluwer Publ. Dordrecht, pp.325-328 (2001).
Mutual Perturbations of the Planetary
Companions of
Pulsar
B 1257+12. (S.Ferraz-Mello) In "Visual Double Stars: Formation,
Dynamics
and Evolutionary Tracks" (J.A.Docobo et al. eds.), Kluwer Publ.,
Dordrecht, pp. 215-220 (1997)
Motion of two planets with periods
commensurable in
the ratio
2:1. Solutions of the Hori Auxiliary System. (W.Sessin and
S.Ferraz-Mello)
Celestial Mechanics, 32: 307-332 (1984). (ADS
pdf)
CoRoT Exoplanets (Papers with the CoRoT Exoplanets Science Team)
Transiting exoplanets from the CoRoT space mission.
XXII. CoRoT-16b: a hot Jupiter with a hint of eccentricity around a
faint solar-like star (M.Ollivier et al.) Astronomy and Astrophysics, 541, A. 149 (2012) (ADS)
Transiting exoplanets from the CoRoT space mission.
XXI. CoRoT-19b: a low density planet orbiting an old inactive F9V-star
(E.W.Guenther et al.)Astronomy and Astrophysics, 537 A.136 (2012) (ADS)
Planetary transit candidates in the CoRoT-SRc01 field (A.Erikson et al.) Astronomy and Astrophysics, 539, A. 14 (2012) (ADS)
Transiting exoplanets from the CoRoT space mission. XX.
CoRoT-20b: A very high density, high eccentricity transiting giant
planet (M.Deleuil et al.) Astronomy and Astrophysics, 538 A.145 (2012) (astro-ph.EP 1109.3203)
Planetary transit candidates in the CoRoT LRa01 field (L.Carone et al.) Astronomy and Astrophysics, 538 A.112 (2012) (ADS)
Transiting exoplanets from the CoRoT space mission .
XIX. CoRoT-23b: a dense hot Jupiter on an eccentric orbit (D. Rouan et
al.), Astronomy and Astrophysics, 537 A.54 (2012) (ADS)
The Mass of CoRoT-7b (A.P.Hatzes et al.) Astrophysical Journal 743, 75 (2011) (astro-ph.EP 1105.3372)
CoRoT LRa02_E2_0121: Neptune-size planet candidate
turns into a hierarchical triple system with a giant primary (L.Tal-Or
et al.) Astronomy and Astrophysics, 534 A. 67 (2011) (ADS)
Transiting exoplanets from the CoRoT space mission.
XVIII. CoRoT-18b: a massive hot Jupiter on a prograde, nearly aligned
orbit (G.Hébrard et al.) Astronomy and Astrophysics, 533 A.130 (2011) (ADS)
Transiting exoplanets from the CoRoT space mission. XVII. The hot
Jupiter CoRoT-17b: a very old planet (Sz. Csizmadia et al.) Astronomy and Astrophysics, 531 A.41 (2011) (ADS)
Transiting
exoplanets from the CoRoT space mission. XVI. CoRoT-14b: an unusually
dense very hot Jupiter, (B.Tingley et al.) Astronomy and Astrophysics 528 A.97 (2011) (ADS)
Transiting
exoplanets from the CoRoT space mission. XV. CoRoT-15b: a brown-dwarf
transiting companion, (F. Bouchy et al.) Astronomy and Astrophysics 525 A.68 (2011) (ADS)
The extreme physical properties of the CoRoT-7b super-Earth (Léger, A. et al.) Icarus, 213, 1 (2011) (astro-ph.EP 1102.1609)
The SARS algorithm: detrending CoRoT light curves with Sysrem using simultaneous external parameters (A.Ofir et al.) Monthly Notice of the Royal Astronomical Society 404, 99 (2010) (ADS)
Transiting exoplanets from the CoRoT space mission. XIV. CoRoT-11b: a
transiting massive ``hot-Jupiter'' in a prograde orbit around a rapidly
rotating F-type star (D.Gandolfi et al.)
Astronomy and Astrophysics, 524, A 55 (2010) (ADS)
Transiting exoplanets from the CoRoT space mission . XIII. CoRoT-13b: a
dense hot Jupiter in transit around a star with solar metallicity and
super-solar lithium content (J.Cabrera et al.) Astronomy and Astrophysics, 522, A 110 (2010) (ADS)
Exoplanet discoveries with the CoRoT space observatory (H.Lammer et al.) Solar System Research 44, 520 (2010) (ADS) Errata: 45, 374 (2011)
Transiting exoplanets from the CoRoT space mission. XII. CoRoT-12b: a
short-period low-density planet transiting a solar analog star (M.Gillon et al.) Astronomy and Astrophysics 520, A 97 (2010) (ADS)
Transiting exoplanets from the CoRoT space mission. XI. CoRoT-8b: a hot
and dense sub-Saturn around a K1 dwarf (P.Bordé et al.) Astronomy and Astrophysics, 520, A. 66 (2010) (ADS)
Transiting exoplanets from the CoRoT space mission. X. CoRoT-10b: a giant planet in a 13.24 day eccentric orbit (A.S. Bonomo et al.) Astronomy and Astrophysics 520, A 65 (2010) (ADS)
A transiting giant planet with a temperature between 250K and 430K (H.Deeg et al. ) Nature, 464, 384-387 (2010) (ADS)
Transiting exoplanets from the CoRoT space mission. IX. CoRoT-6b: a
transiting ``hot Jupiter'' planet in an 8.9d orbit around a
low-metallicity star (M. Fridlund et al.) Astronomy and Astrophysics, 512, A14 (2010)(ADS)
The CoRoT-7 planetary
system: two orbiting super-Earths (D. Queloz et al.)Astronomy and Astrophysics, 506, 303-319 (2009) (ADS)
Transiting exoplanets from
the CoRoT space mission. VIII. CoRoT-7b: The first Super-Earth with measured
radius. (A. Léger et al.) Astronomy and Astrophysics, 506, 287-302 (2009)astro-ph.EP/0908.0241v3
Dynamic picture of the inner asteroid belt:
implications for the density, size and taxonomic distributions of real
objects. (T.A.Michtchenko, D. Lazzaro, J.M.Carvano, &
S.Ferraz-Mello) Monthly
Notices of the Royal Astronomical Society401, 2499-2516 (2010) (ADS)
Chirikov diffusion in the asteroidal three-body resonance (5, -2, -2), (F.Cachucho, P.M.Cincotta & S. Ferraz-Mello) Celestial Mechanics and Dynamical Astronomy 108, 350 (2010) (astro-ph.EP 1009.3558)
A frequency approach to identifying asteroid families. II. Families interacting with nonlinear
secular resonances and low-order mean-motion resonances (V.
Carruba & T. A.
Michtchenko) Astronomy
and Astrophysics493, 267-282 (2008) (ADS)
Physical and dynamical characterization of (5201)
Ferraz-Mello, a possible extinct Jupiter family comet (J.M.
Carvano, S. Ferraz-Mello and D. Lazzaro) Astronomy
and Astrophysics489, 811-817 (2008) (ADS)
A frequency approach to identifying asteroid families. (V.
Carruba & T. A.
Michtchenko) Astronomy
and Astrophysics475, 1145-1158 (2007) (ADS)
On the V-type asteroids
outside the Vesta family. II. Is (21238) 1995 WV7 a fragment of the
long-lost basaltic crust of (15) Eunomia? (V.
Carruba, T. A.
Michtchenko & D.Lazzaro) Astronomy and Astrophysics473, 967-330 (2007).(ADS)
Modeling
close encounters with massive asteroids: a Markovian approach (V.
Carruba, F.Roig, T. A.
Michtchenko, S. Ferraz-Mello & D. Nesvorný)
Astronomy and Astrophysics465, 315-330 (2007).(ADS)
The inner region of the asteroid Main Belt: a
spectroscopic
and dynamic analysis (A.Alvarez-Candal, R. Duffard, D.Lazzaro &
T.A.Michtchenko) Astronomy
and Astrophysics459,
969-976
(2006).(ADS)
On the
V-type asteroids outside the Vesta family. I. Interplay of nonlinear secular
resonances and the Yarkovsky effect: the cases of 956 Elisa and 809 Lundia (V.
Carruba, T. A.
Michtchenko, F. Roig, S. Ferraz-Mello & D. Nesvorný)
Astronomy and Astrophysics441, 819-829
(2005)
(astrro-ph/0506656) (ADS)
Analytical proper elements for Hilda
asteroids. I: Construction of the formal solutions (O.I. Miloni, S.
Ferraz-Mello & C. Beaugé) Celestial Mechanics and
Dynamical
Astronomy, 92, 91-112
(2005) (pdf)
Survival of Trojan-type companions of
Neptune
during primordial
planet migration (S.J.Kortenkamp, R.Malhotra, T.Michtchenko) Icarus, 167,
347-359 (2004).
A perturbative treatment of the
co-orbital
motion
(D.Nesvorný,
F.Thomas, S.Ferraz-Mello & A.Morbidelli) Celestial Mechanics and
Dynamical
Astronomy, 82, 323-361 (2002).
Asteroids in 2:1 Resonance with
Jupiter:
Dynamics
and Size
Distribution. (F.Roig, D.Nesvorný & S.Ferraz-Mello)
Monthly
Notices of the Royal Astronomical Society, 335, 417-431 (2002).
Regular and Chaotic Dynamics in the
Mean-Motion
Resonances:
Implications for the Structure and Evolution of the Asteroidal Belt.(Review
Paper) (D.Nesvorný, S.Ferraz-Mello, M.Holman &
A.Morbidelli)
In "Asteroids III" (W.F.Bottke et al., eds.) University of Arizona
Press/Lunar
and Planetary Institute, 379-394 (2002).
Planetary Migration and the Effects
of Mean
Motion
Resonances
on Jupiter's Trojan Asteroids (T.A. Michtchenko, C. Beaugé &
F. Roig), Astronomical Journal, 122, 3485-3491 (2001).
A Semianalytical Model for the Motion
of the
Trojan
Asteroids:
Proper Elements and Families (C. Beaugé & F. Roig) Icarus, 153,
391-415 (2001).
Mean Motion Resonances in the
Transneptunian
Region
-- II:
The 1:2, 3:4, and weaker Resonances (D. Nesvorný & F. Roig)
Icarus, 150, 104-123 (2001).
Mean Motion Resonances in the
Transneptunian
Region
-- I:
The 2:3 Resonance with Neptune (D. Nesvorný & F. Roig)
Icarus, 148,
282-300 (2000).
Close approaches of the trans-Neptunian
objects
to
Pluto
had left observable signatures on their orbital distribution
(D.Nesvorný,
F.Roig & S.Ferraz-Mello), Astronomical Journal 119, 953-969
(2000).
Slow and Fast Diffusion in
Asteroidal-Belt
Resonances. A Review.
(S.Ferraz-Mello) Celestial Mechanics and Dynamical Astronomy 73,
25-37 (1999).
A symplectic mapping approach
of the
dynamics
of the
Hecuba gap (F.Roig & S.Ferraz-Mello), Planetary and Space Science 47,
653-664 (1999).
A symplectic mapping approach for the
study of
stochasticity
in 3D asteroidal resonances (F.Roig & S. Ferraz-Mello), In "The
Dynamics
of Small Bodies in the Solar System: A major key to Solar System
studies"
(A.E.Roy and B.Steves,eds.) Kluwer Publ. Dordrecht, pp. 13-18 (1999).
On the similarities and differences
between the
3/2
and 2/1
asteroidal resonances (T. A. Michtchenko & S. Ferraz-Mello) In "The
Dynamics of Small Bodies in the Solar System: A major key to Solar
System
studies" (A.E.Roy and B.Steves, eds.) Kluwer Publ. Dordrecht, pp.
25-30 (1999).
Chaotic Diffusion in the 2/1, 3/2 and
4/3
Jovian
resonances
(D. Nesvorný & S.Ferraz-Mello) In "The Dynamics of
Small
Bodies in the Solar System: A major key to Solar System studies"
(A.E.Roy
and B.Steves, eds.) Kluwer Publ. Dordrecht, pp. 19-24 (1999).
Dynamics of real asteroids at the
Hecuba gap
(F.Roig &
S.Ferraz-Mello) In "Impact of Modern Dynamics in Astronomy" (J.Henrard
& S.Ferraz-Mello, eds.) Kluwer Publ. Dordrecht, pp. 387-388 (1999).
Stochasticity of the 2/1 Asteroidal
Resonance:
A
Symplectic
Mapping Approach. (S.Ferraz-Mello) In "Hamiltonian Systems with 3 or
more
Degrees of Freedom" (C.Simň, ed.), Kluwer Publ., Dordrecht, pp.
357-361(1999).
Chaos, Diffusion, Escape and
Permanence of
Resonant
Asteroids
in Gaps and Groups. (S. Ferraz-Mello, D. Nesvorný, &
T.A.Michtchenko)
In "Solar System Formation and Evolution" (D.Lazzaro et al. eds.),
Astron.
Soc. Pacific, San Francisco, 65-82 (1998).
Dynamics of the exterior 2:3
resonance with
Neptune. (T.Gallardo
& S.Ferraz-Mello) Planetary and Space Science, 46, 945-965
(1998).
The determinant role of Jupiter's
Great
Inequality
in the
depletion of the Hecuba Gap (S.Ferraz-Mello, T.Michtchenko &
F.Roig),
Astronomical Journal 116, 1491-1500 (1998).
On the lack of asteroids in the
Hecuba Gap
(S.Ferraz-Mello,
D.Nesvorn'y & T.Michtchenko), Celestial Mechanics and Dynamical
Astronomy 69,
171-185 (1998).
The depletion of the Hecuba Gap vs.
The
long-lasting Hilda
group (S.Ferraz-Mello, T.A.Michtchenko, D.Nesvorný, F.Roig &
A.Simula), Planetary and Space Science 46, 1425-1432 (1998).
Chaotic diffusion in the 2/1
asteroidal
resonance.
An application
of the frequency map analysis. (D.Nesvorny & S.Ferraz-Mello)
Astronomy
and Astrophysics, 320, 672-680 (1997).
A Symplectic Mapping approach to the
study of
the
Stochasticity
in Asteroidal Resonances. (S.Ferraz-Mello) Celestial Mechanics and
Dynamical
Astronomy, 65, 421-437 (1997).
Orbital Evolution of Asteroids in the
Hecuba
gap
(S.Ferraz-Mello
& T.Michtchenko). In "The Dynamical Behaviour of our Planetary
System",
(R.Dvorak & J.Henrard, eds.) Kluwer Publ., Dordrecht, pp.377-384
(1997).
On the asteroidal population of the
first-order
Jovian resonances.
(D.Nesvorný & S.Ferraz-Mello) Icarus. 130, 247-258
(1997).
Escape of Asteroids from the Hecuba
gap
(T.Michtchenko &
S.Ferraz-Mello) Planetary and Space Science. 45, 1587-1593
(1997).
On the Hecuba gap, (S.Ferraz-Mello)
In
"Dynamics,
Ephemerides
and Astrometry of the Solar System", IAU Symposium 172,177-182
(1996).
Chaotic Transitions in Asteroidal
Resonances, (Review
Paper) (S.Ferraz-Mello, J.C.Klafke, T.Michtchenko, D.Nesvorny)
Celestial
Mechanics and Dynamical Astronomy, 64, 93-105 (1996).
Chaos and the Dynamics of Resonant
Asteroids (Review
Paper), (S.Ferraz-Mello & T.Michtchenko) Revista Mexicana de
Astronomia y Astrofísica. (Série Conferencias), 4,
27-34 (1996).
Comparative study of the asteroidal
motion in
the
3/2 and
2/1 resonances with Jupiter. II. Three-dimensional model.
(T.Michtchenko
& S.Ferraz-Mello) Astronomy and Astrophysics, 310,
1021-1035
(1996).
Comparative study of the asteroidal
motion in
the
3/2 and
2/1 resonances with Jupiter. I. Planar model. (T.Michtchenko &
S.Ferraz-Mello)
Astronomy and Astrophysics, 303: 945-963 (1995).
The depletion of the asteroidal belt
at
resonances
(Invited
Lecture) (S.Ferraz-Mello, R.Dvorak & T.A.Michtchenko) In "From
Newton
to Chaos: Modern Techniques for Understanding and Coping with Chaos in
N-body Dynamical Systems". (A.E.Roy & B.A.Steves, eds.) Plenum
Press,
New York, pp. 157-169 (1995).
The high-eccentricity libration
theory
revisited.
(T.Gallardo
& S.Ferraz-Mello) Celestial Mechanics and Dynamical Astronomy, 62:
145-165 (1995).
Kirkwood gaps and resonant groups
(Invited Review
Paper) (S.Ferraz-Mello) IAU Symposium 160, 175-188
(1994).
Dynamics of the asteroidal 2:1
resonance.
(S.Ferraz-Mello)
Astronomical Journal, 108: 2330-2337(1994).
The high-eccentricity libration of
the Hildas.
II.
Synthetic-theory
approach (T.Michtchenko & S.Ferraz-Mello). Celestial Mechanics and
Dynamical Astronomy, 56: 121-129 (1993).
Very-high eccentricity librations at
some
higher
order resonances
(J.C.Klafke, S.Ferraz-Mello & T.Michtchenko) IAU Symposium 152,
153-158 (1992).
A Model for the Study of
Very-High-Eccentricity
Asteroidal
Motion. The 3:1 resonance (S.Ferraz Mello & J.C.Klafke). In
"Predictability,
Stability and Chaos in N-body Dynamical Systems" (A.E.Roy, ed.) Plenum
Press, New York, pp. 177-184 (1991) (PDF)
Libration Motion of Asteroid (279)
Thule (M.
Tsuchida) Rev.
Mex. Astron. Astrofísica, 21, 585-589 (1990).
The High-Eccentricity Libration of
the Hildas.
(S.Ferraz-Mello)
Astronomical Journal 96: 400-408 (1988).
Some instabilities in the 3/1 and 2/1
resonances
(T. Yokoyama,
M. Sato & M. Tsuchida) Celestial Mechanics, 41, 99-105
(1987).
On the 3/1 planar and circular
resonant problem
(T.
Yokoyama
& M. Sato) Celestial Mechanics, 39, 117-132 (1986).
Resonance capture and the
formation of the
outer
planets.
(C.Beaugé, S.J.Aarseth & S.Ferraz-Mello) Monthly Notices of
the Royal Astronomical Society, 270: 21-34 (1994). (ADS)
Capture in exterior
mean-motion resonances due
to
Poynting-Robertson
drag (C.Beaugé & S.Ferraz-Mello) Icarus, 110:
239-260
(1994).
Resonance trapping in
the primordial solar
nebula:
The case
of a Stokes drag dissipation. (C.Beaugé & S.Ferraz Mello)
Icarus, 103:
301-318 (1993).
Capture of grains into
resonances through
Poynting-Robertson
Drag (B .Sicardy, C.Beaugé, S.Ferraz-Mello, D.Lazzaro &
F.Roques)
Celestial Mechanics and Dynamical Astronomy, 57: 373-390 (1993).
Corotation solutions in
the elliptic asteroidal
problem with
Stokes drag (C.Beaugé & S.Ferraz-Mello) IAU Symposium 152,
355-358 (1992).
Averaging the Elliptic
Asteroidal Problem with
a
Stokes drag.
(S.Ferraz-Mello) In "Interrelations between Physics and Dynamics
for Minor Bodies in the Solar System". (D.Benest & Cl.Froeschle,
eds.)
Edit. Frontičres (Gif-sur-Yvette, France), pp.45-60 (1992).
Planetary Satellites
On the
tidal evolution of Titan (H.Hussmann, F.Sohl, A. Rodriguez &
S.Ferraz-Mello. In "Proceedings of the Rencontres de Blois" Frontier of
the Universe, Blois [in press]\
The
interplay of
tides and
resonance in the evolution of the orbit of Hyperion. (abstract) (S. Ferraz-Mello
& H.Hussmann) Bulletin of the American Astronomical Society, 37, 728 (2005). (ADS).
Some aspects of the dynamics of
fictitious
Earth's satellites
(N. Callegari & T. Yokoyama) Planetary and Space Science, 49,
35-46 (2001)
The origin of chaotic behaviour in the
Miranda-Umbriel
3:1 resonances (J. Henrard & M. Sato) Celestial Mechanics and
Dynamical
Astronomy 47, 391-417 (1990).
Semi-Analytical Solution for the
Eccentricities
and
Longitudes
of Pericenter of Uranian Satellites. (D.Lazzaro, S.Ferraz-Mello &
R.Vieira
Martins) Astronomy and Astrophysics 182: 150-180 (1987).
Chaos and Secular Variations of
Planar Orbits
in
2:1 Resonance
with Dione (S.Ferraz-Mello & R.Dvorak) Astronomy and Astrophysics 179:
304-310 (1987).
Orbital Resonances amongst Planetary
Satellites
(Review
Paper) (S.Ferraz-Mello) In Dynamics of the Solar System (M.
Sidlichovsky,
ed.) Astron. Inst. Czech. Acad. Sciences, Praha, pp.49-57 (1987).
The Laplacian Resonance amongst
Uranian Inner
Satellites
(D.Lazzaro, S.Ferraz-Mello & C.Veillet) Astronomy and Astrophysics 140:
33-38 (1984).
Discussion of the Photographic
Observations of
the
Galilean
Satellites in the Period 1913-1928. (M.Tsuchida, S.Ferraz-Mello &
R.Biancale)
Astronomical Journal 87: 924-927 (1982).
Comparison of Sampson-Lieske Theory
of the
Galilean
Satellites
of Jupiter with Observations (R. Biancale, S. Ferraz-Mello and
M.Tsuchida)
Celestial Mechanics 26: 225-228 (1982).
"Dynamics of the Galilean Satellites
of
Jupiter"
(S.Ferraz-Mello), IAG-USP,
Săo Paulo, (1979).(Errata)
"Natural and Artificial Satellite
Motion",
(P.E.
Nacozy and
S.Ferraz-Mello, eds.) Univ.Texas Press, Austin (1979).
Satellites (Report) (S.Ferraz-Mello)
Transactions
International
Astronomical Union 17A: 140-143 (1979).
A Second-Order Theory of the Galilean
Satellites of
Jupiter.
(S.Ferraz-Mello) In "Dynamics of Planets and Satellites and Theories of
their Motion" (V.Szebehely, ed.) D.Reidel, Dordrecht, pp.209-236 (1978).
Masses of the Galilean Satellites of
Jupiter.
(S.Ferraz-Mello)
Science 192: 1127-1128 (1976).
Discussion of the Photographic
Observations of
the
Galilean
Satellites in the Period 1930-1970. (S.Ferraz-Mello and L.R.de Paula)
Astronomical
Journal 81: 127-131 (1976).
Problems of the Galilean Satellites
of Jupiter.
(S.Ferraz-Mello)
Celestial Mechanics 12: 27-37 (1975).
Search and Determination of
Periodicity
(S.Ferraz-Mello and
G.R.Quast) In "Exercises in Astronomy" (J. Kleczek, ed.), D. Reidel,
Dordrecht,
pp.231-235 (1987). (pdf)
Estimation of Periods from Unequally
Spaced
Observations.
(S.Ferraz-Mello) Astronomical Journal 86: 619-624 (1981).
Determination of Periods from
Unevenly Spaced
Data.
(S.Ferraz-Mello)
In "Colóquio de Sistemas Binários Cerrados" (R.Vilhena de
Moraes, ed.) Soc. Astron. Brasil., Sao Paulo, pp.146-171 (1978).
The Ideal Resonance
Problem: The
post-post-pendulum approximation,
(S.Ferraz-Mello) Celestial Mechanics and Dynamical Astronomy, 83,
275-289 (2002).
Do average Hamiltonians exist?
(S.Ferraz-Mello)
Celestial
Mechanics and Dynamical Astronomy 73, 243-248 (1999).
On high-eccentricity small-amplitude
librations
(A.
Simula,
S. Ferraz-Mello & C. Giordano), In "The Dynamics of Small Bodies in
the Solar System: A major key to Solar System studies" (A.E.Roy and
B.Steves,
eds.) Kluwer Publ. Dordrecht, pp.7-12 (1999).
On Hamiltonian Averaging Theories and
Resonance.
(S.Ferraz-Mello)
Celestial Mechanics and Dynamical Astronomy. 65, 39-50 (1997).
The technique of Lie Transforms in
Hamiltonian
Systems. (S.Ferraz-Mello)
In "Perturbation Theory and Chaos in Nonlinear Dynamics with emphasis
to
Celestial Mechanics" (J.Hagel, M.Cunha & R.Dvorak, eds.)
Universidade
da Madeira, Funchal and Institut für Astronomie Universität
Wien.
pp. 43-58 (1995).
On symmetrical planetary corotations
(S.Ferraz
Mello, M.Tsuchida
& J.C. Klafke). Celestial Mechanics and Dynamical Astronomy, 55:
25-45 (1993).
Corotations in some higher-order
resonances
(S.Ferraz-Mello,
M.Tsuchida & J.C.Klafke) IAU Symposium 152, 167-170 (1992).
Averaging Hamiltonian Systems.
(S.Ferraz-Mello)
In
"Modern
Methods in Celestial Mechanics" (D.Benest & C.Froeschle,
eds).
Edit. Frontieres, Gif-sur-Yvette, pp.151-211 (1990).
On Resonance (Review
Paper),
(S.Ferraz-Mello) Celestial Mechanics, 43: 69-89 (1988).
On a Class of Integrable
Hamiltonians.
(S.Ferraz-Mello) Rev.
Soc. Brasil. Progr. Cięncia (Cięncia Cult.) 40:
598-600
(1988).
Averaging the Elliptic Asteroidal
Problem Near
a
First-Order
Resonance. (S.Ferraz-Mello) Astronomical Journal 94: 208-212
(1987).
Resonance in Regular Variables: I-
Morphogenetic
Analysis
of the Orbits in the case of First-Order Resonance. (S.Ferraz-Mello)
Celestial
Mechanics 35: 209-220 (1985).
Resonance in Regular Variables: II-
Formal
Solutions for
Central and Non-Central First-Order Resonance. (S.Ferraz-Mello)
Celestial
Mechanics 35: 221-234 (1985).
"Resonances in the Motion of Planets,
Satellites
and Asteroids"
(S.Ferraz-Mello & W.Sessin, eds.) IAG-USP (1985)
A note on Resonance in Regular
Variables and
Averaging (S.
Ferraz-Mello & W. Sessin) Celestial Mechanics 34: 453-457
(1984).
Une extension de la Méthode de
Delaunay.
(S.Ferraz-Mello)
Comptes Rendus Acad. Sciences Paris 286A: 969-971
(1978).
The high-eccentricity
asymmetric expansion
of the
disturbing
function for non-planar resonant problems. (F.Roig, A.Simula,
S.Ferraz-Mello
& M.Tsuchida) Astronomy and Astrophysics, 329, 339-349
(1998).
On the convergence of the disturbing
function.
(S.Ferraz-Mello)
In "From Newton to Chaos: Modern Techniques for Understanding and
Coping
with Chaos in N-body Dynamical Systems." (A.E.Roy & B.A.Steves,
eds.)
Plenum Press, New York, pp. 97-98 (1995).
On the convergence domain of the
Laplacian
expansion of the
disturbing function. (S.Ferraz-Mello) Celestial Mechanics and Dynamical
Astronomy, 58: 37-52 (1994).
A Semi-Numerical Expansion of the
Averaged
Disturbing Function
for some Very-High-Eccentricity Orbits. (S.Ferraz-Mello) Celestial
Mechanics 45:
65-68 (1989).
A Very-High-Eccentricity Asymmetric
Expansion
of
the Disturbing
Function near Resonances of Any Order. (S.Ferraz-Mello and M.Sato)
Astronomy
and Astrophysics 225: 541-547 (1989).
Expansion of the Disturbing
Force-Function for
the
Study
of High-Eccentricity Librations. (S.Ferraz-Mello) Astronomy and
Astrophysics 183:
397-402 (1987).
Miscellanea
BOOK: SPACE MANIFOLD DYNAMICS. NOVEL SPACEWAYS FOR SCIENCE AND ENGINEERING(E.Perozzi & S.Ferraz-Mello, eds.)Springer,
NY, 2010.
Origin of the Basaltic
Asteroid 1459
Magnya. A
Dynamical
and Mineralogical Study of the Outer Main Belt. (T.A.Michtchenko,
D.Lazzaro,
S.Ferraz-Mello & F.Roig), Icarus, 158, 343-359 (2002).
A Comparison between Methods to
compute
Lyapunov Exponents
(G. Tancredi, A. Sánchez & F. Roig) Astronomical Journal, 121,
1171-1179 (2001).
Discovery of a Basaltic Asteroid in
the Outer
Main
Belt (D.
Lazzaro, T.A. Michtchenko, J.M. Carvano, R.P. Binzel, S.J. Bus, T.H.
Burbine,
T. Mothé-Diniz, M. Florczak, C.A. Angeli
& Alan W. Harris) Science, 288, 2033-2035 (2000)
Frequency Map Analysis of the orbital
structure
in
elliptical
galaxies (F.C.Wachlin & S.Ferraz-Mello) Monthly Notices of the
Royal
Astronomical Society, 298, 22-32 (1998).
Frequency modified Fourier transform
and its
applications
to asteroids (M. Sidlichovsky & D. Nesvorný), Celestial
Mechanics
and Dynamical Astronomy. 65, 137-148 (1997).
Wavelet analysis of the asteroidal
resonant
motion.
(T.A.
Michtchenko & D. Nesvorný) Astronomy and Astrophysics, 313,
674-678 (1996).
A theoretical dynamical limit of
planet X's
mass
based on
its perturbations on Uranus and Neptune (A. Brunini) Astronomy and
Astrophysics 265,
324-327 (1992).
On the ephemerides of Uranus (A.
Brunini)
Astronomy
and Astrophysics 255,
401-404 (1992).
Comparison of Bretagnon's VSOP 82
Theory to the
Observations
of Uranus (R.S.Gomes and S. Ferraz-Mello) Astronomy and Astrophysics 203:
170-174 (1988).
Would a Planet X explain the
Discrepancies in
the
Motions
of Uranus and Neptune? (R.S.Gomes and S.Ferraz-Mello) Anais Acad.
Brasil.
Cięncias 60: 399-403 (1988).
Comparison of Bretagnon's VSOP 82
Theory to the
Observations
of Neptune (R.S.Gomes and S.Ferraz-Mello) Astronomy and Astrophysics 185:
327-331 (1987).
Reappearance of ordered motions in
strongly
nonlinear Hamiltonian
systems (T. Yokoyama) Celestial Mechanics 33: 99-109 (1984).
Elimination of Secular Terms
Generated by the
Coupling of
Perturbations. (S.Ferraz-Mello) Celestial Mechanics 25: 293-296
(1981).