J. Phys. III France
Volume 5, Numéro 11, November 1995
Page(s) 1871 - 1885
DOI: 10.1051/jp3:1995231
J. Phys. III France 5 (1995) 1871-1885

Connection of a Scanning Tunneling Microscope with a Molecular Beam Epitaxy Chamber and Analysis of the Vibration Isolation System

P. Krapf, J.P. Lainé(*), Y. Robach and L. Porte

Département de Physicochimie des Matériaux (UA CNRS 848), and (*)Département de Mécanique des Solides, Ecole Centrale de Lyon, B.P. 163, 69131 Ecully Cedex, France

(Received 22 March 1995, revised 12 July 1995, accepted 19 July 1995)

A scanning tunneling microscope has been connected to a high vibrating commercial Molecular Beam Epitaxy (MBE) system, in order to study InGaAs layers grown on InP. An original and well efficient vibration isolation system has been designed and built: the microscope support, stiffly linked to a vibration free inert mass has been connected through a highly flexible bellow to the MBE system. The main characteristic of this design is a low transmission factor at low frequencies. A detailed analysis of this system has been made to determine the main parameters of the transfer function and optimize the performances. Crucial problems concern the bellow which for efficient damping of the eigen mode vibrations has to be adapted, and the sample weight which has to be lowered. The efficiency of this vibration isolation system has been demonstrated by high resolution imaging of the graphite surface and of the surface of an InGaAs buffer layer epitaxially grown on an InP (100) substrate.

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