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Les publications du laboratoire

[1] Electronic effects in scanning tunneling microscopy of dendritic, Cr-filled carbon nanotubes
ZHA F.-X., CARROLL D. L., CZERW R., LOISEAU A., PASCARD H.,
CLAUSS W. et ROTH S.,
Phys. Rev. B 63 165432-1 à 5.

[2] Catalyst-free synthesis of boron nitride single-wall nanotubes with a preferred zig-zag configuration,
LEE R. S., GAVILLET J., LAMY DE LA CHAPELLE M., LOISEAU A., COCHON J.-L., PIGACHE D., THIBAULT J. et WILLAIME F.,
Phys. Rev. B 64 (2001) 121405(R) 1-4.

[3] Diameter control of single-walled carbon nanotubes using argon-helium mixture gases,
FARHAT S., LAMY DE LA CHAPELLE M., LOISEAU A., SCOTT C. D., LEFRANT S., JOURNET C., BERNIER P.,
J. Chem. Phys. 115 (2001) 6752-6759.

[4] Root growth mechanism for single-wall nanotubes,
GAVILLET J., LOISEAU A., JOURNET C., WILLAIME F., DUCASTELLE F. et CHARLIER J.-C.,
Phys. Rev. Letters 87 (2001) 275504.

[5] Phason elastic constants of the icosahedral Al-Pd-Mn phase derived from dffuse scattering measurements,
LETOUBLON A., DE BOISSIEU M., BOUDARD M., MANCINI L., GASTALDI J.,HENNION B., CAUDRON R. et BELLISSENT R.,
Phil. Mag. Letters 81 (2001) 273-283.

[6] Coherent X-ray diffraction and phason fluctuations in quasicrystals,
LETOUBLON A., YAKOU F., LIVET F., BLEY F., DE BOISSIEU M.,
MANCINI L., VETTIER C. et GASTALDI,
Europhys. Lett. 54 (2001) 753-759.

[7] Study of the local atomic strain field in a Zr-doped TiAl intermetallic alloy by EXAFS and ab initio FLAPW calculations,
PONCHEL A., HUG G. et JAOUEN M.,
Ultramicroscopy 86 (2001) 265-272.

[8] Electron beam puncturing of carbon nanotube containers for release of stored N2 gas,
TRASOBARES S., STEPHAN O., COLLIEX C., HUG G., HSU W. K., KROTO H. W. et WALTON D. R. M.,
Eur.Phys.J.B 22 (2001) 117-122.

[9] Kinetic evolution of unmixing in an AlLi alloy using x-ray intensity fluctuation spectroscopy,
LIVET F., BLEY F., CAUDRON R., GEISSLER E., ABERNATHY D., DETLEFS, GRUBEL G. et SUTTON M.,
Phys. Rev. E 63 (2001) 036108-1 à7.

[10] Temperature dependence of the diffuse-scattering fine structure in Cu-Pd alloys,
WANG X., LUDWIG K. F., MALIS O., MAINVILLE J., FLAMENT X. et CAUDRON R.,
Phys. Rev. B 63 (2001) 092201-1 à 4.

[11] Chemical ordering at alloy surfaces: Low-index versus vicinal surfaces,
LE GOFF E., LE FLOC'H D., BARBIER L., GOAPPER S., SALANON B. et LOISEAU A.,
Phys. Rev. B 63 (2001) 125418-1 à 9.

[12] Structure of vicinal surfaces of alloys : Cu-Pd(17%)(115),
LE GOFF E., ARFAOUI I., BARBIER L., LOISEAU A. et SALANON B.,
Surface Science 481 (2001) 215-225.

[13] Strain-induced microstructure development due to a wetting phenomenon in the Co-Pt system,
LE BOUAR Y. et LOISEAU A.,
Acta Mater. 49 (2001) 2679- 2690.

[14] Atomistic study of the coherency loss during the BCC-9R transformation of small copper precipitates in ferritic steel,
LE BOUAR Y.,
Acta Mater 49 (2001) 2661.

[15] Driven phase transformations: A useful concept for wear studies ?
CHAFFRON L., LE BOUAR Y. et MARTIN G.,
Comptes-rendus de l'Académie des sciences - Série IV - Physique - Astrophysique, 2, No. 5 (2001) 749.

[16] Kinetics of the coherent order-disorder transition in Al3Zr
PROVILLE L. et FINEL A.,
Phys. Rev. B 64 (2001) 054104, 1 à 7.

[17] On the existence of superlattice intrinsic stacking fault-superlattice extrinsic stacking fault coupled pairs in an L12 alloy,
DIRRAS G. F. et DOUIN J.,
Phil. Mag. 81 (2001) 467-478.

[18] Extrinsic factors influencing the yield stress anomaly ofAl-rich g-TiAl,
GREGORI F., PENHOUD P. et VEYSSIERE P.,
Phil. Mag. 81 (2001) 529-542.

[19] Relaxation of coherency stresses by dislocation networks in lamellar g-TiAl,
SAADA G. et COURET A.,
Phil. Mag. A 81 (2001) 2109-2120.

[20] The annihilation by glide of prismatic loops in walls,
VEYSSIERE P.,
Phil. Mag. Letters 81 (2001) 733-741.

[21] Formation of prismatic loop alignements in crystals deformed in single slip,
VEYSSIERE P. et GREGORI F.,
Phil. Mag. Letters 81 (2001) 797-801.

[22] Homogenization method for a discrete-continuum simulation of dislocation dynamics,
LEMARCHAND C., DEVINCRE B. et KUBIN L. P.,
J. Mech. Phys. Solids 49 (2001) 1969-1982.

[23] Low-cycle fatigue of a nickel-based superalloy at high temperature : simplified micromechanical modelling,
BRIEN V., KUBIN L. P. et DECAMPS B.,
Phil. Mag. A 81 (2001) 2285-2301.


Proceedings

[24] Catalyst-free synthesis of single-wall boron nitride nanotubes via laser ablation,
LEE R., GAVILLET J., LAMY DE LA CHAPELLE M., COCHON J.-L., PIGACHE D., THIBAULT J., WILLAIME F. et LOISEAU A.,
Mat. Res. Soc. Symp. Proc. Vol 633 (2001).

[25] A Brief Survey of Quasicrystallography,
GRATIAS D.,
Ferroelectrics, 250 (2001), 1-6.

[26] Atomic Structure of the cubic 1/1 Approximant a-(Al,Si)CuFe,
PUYRAIMOND F., TILLARD M., BELIN C., QUIQUANDON M., GRATIAS D., QUIVY A. et CALVAYRAC Y.,
Ferroelectrics, 250 (2001), 281-284.

[27] EXAFS and EXELFS study of the structure of Pd-Ni-P bulk metallic glasses,
ALAMGIR F. M., JAIN H., WILLIAMS D. B., HUG G, SCHWARZ ., R. B. et JIN O.,,
Mat. Res. Soc. Symp. Proc. (2001).

[28] Diffusion in dilute Fe1-x Cux Alloys: Comparison between a rigid lattice model and static EAM simulations,
LE BOUAR Y. , WALLE S. ,
Defect and Diffusion Forum, Vols. 194-199, Scitec Publications, Switzerland (2001) 139.

[29] Stress field around precipitates : direct measurement and relation with the behavior of dislocations,DOUIN J. , DONNADIEU P. , EPICIER T. , DIRRAS G. , PROULT A. et SILVAIN J. F. ,
Materials Science and Engineering A319 (2001), 270-273.

[30] Microstructural investigation of a pseudo-binary L12 alloy,
DIRRAS G., DOUIN J. et GARNIER A. P.,
Materials Science and Engineering A 319 (2001), 372-374.

[31] Mesoscopic simulations of plastic deformation
DEVINCRE B., KUBIN L., LEMARCHAND C. et MADEC R.,
Mat. Sci. and Eng. A 309-310 (2001) 211-219.


Contributions à ouvrages


[32] Growth of nanotubes : the combined TEM and phase diagram approach,
LOISEAU A. et WILLAIME F.,
in 'Carbon Filaments and Nanotubes : common origins, differing applications', L.P. Biro et al. Editors (Kluwer Academic Publishers) (2001), 133-148.

[33] Les Nanotubes, matériaux du futur.
LOISEAU A.,
In 'Université de Tous les Savoirs : qu'est-ce que les technologies', Editions Odile Jacob (Paris) (2000), p. 486.

[34] Les Nanotubes : structure, croissance et caractérisation
LOISEAU A.,
in 'Le carbone : Nanotubes, fullerènes et diamant', Le Vide N°300, 2/4 (2001), p 209 - 228

[35] Application de la Technique de faisceau faible à l'étude du comportement thermodynamique des parois d'antiphase dans les alliages ordonnés,
LOISEAU A.,
in ' Microscopie des défauts cristallins', (Société Française des Microscopies) (2001), p 467.

[36] Microscopie conventionnelle des défauts cristallins,
DECAMPS B. et DOUIN J. ,
Chapitre III.1.1 du livre "Microscopie des défauts cristallins", (Société Française des Microscopies) (2001) 153-188.