Controlling the Dynamics of a Single Atom in Lateral Atom Manipulation

We studied the dynamics of a single cobalt (Co) atom during lateral manipulation on a copper (111) surface in a low-temperature scanning tunneling microscope. The Co binding site locations were revealed in a detailed image that resulted from lateral Co atom motion within the trapping potential of the scanning tip. Random telegraph noise, corresponding to the Co atom switching between hexagonal close-packed (hcp) and face-centered cubic (fcc) sites, was seen when the tip was used to try to position the Co atom over the higher energy hcp site. Varying the probe tip height modified the normal copper (111) potential landscape and allowed the residence time of the Co atom in these sites to be varied. At low tunneling voltages (less than ∼5 millielectron volts), the transfer rate between sites was independent of tunneling voltage, current, and temperature. At higher voltages, the transfer rate exhibited a strong dependence on tunneling voltage, indicative of vibrational heating by inelastic electron scattering.

[1]  K. Kern,et al.  Quantum interference and long-range adsorbate-adsorbate interactions , 2003 .

[2]  Theory of the Eigler switch. , 1993, Physical review letters.

[3]  Persson Reply to "Comment on 'Surface resistivity and vibrational damping in adsorbed layers' " , 1991, Physical review. B, Condensed matter.

[4]  A. Kühnle,et al.  Understanding atom movement during lateral manipulation with the STM tip using a simple simulation method , 2002 .

[5]  Avouris,et al.  Role of multiple inelastic transitions in atom transfer with the scanning tunneling microscope. , 1993, Physical review. B, Condensed matter.

[6]  D. Eigler,et al.  Positioning single atoms with a scanning tunnelling microscope , 1990, Nature.

[7]  M. Weissman 1/f noise and other slow, nonexponential kinetics in condensed matter. , 1988 .

[8]  B. Lundqvist,et al.  THEORY OF ATOM TRANSFER WITH A SCANNING TUNNELING MICROSCOPE , 1997 .

[9]  J R Tucker,et al.  Atomic-Scale Desorption Through Electronic and Vibrational Excitation Mechanisms , 1995, Science.

[10]  K. Braun,et al.  Single-atom manipulation mechanisms during a quantum corral construction , 2003 .

[11]  P. Hyldgaard,et al.  Site determination and thermally assisted tunneling in homogenous nucleation. , 2003, Physical review letters.

[12]  D. Eigler,et al.  Atomic and Molecular Manipulation with the Scanning Tunneling Microscope , 1991, Science.

[13]  D. Eigler,et al.  An atomic switch realized with the scanning tunnelling microscope , 1991, Nature.

[14]  B. Lundqvist,et al.  Atomic switch proves importance of electron-hole pair mechanism in processes on metal surfaces , 1992 .

[15]  Gerd Meyer,et al.  BASIC STEPS OF LATERAL MANIPULATION OF SINGLE ATOMS AND DIATOMIC CLUSTERS WITH A SCANNING TUNNELING MICROSCOPE TIP , 1997 .

[16]  Ho,et al.  Single-molecule vibrational spectroscopy and microscopy , 1998, Science.

[17]  W. Hergert,et al.  Effect of mesoscopic relaxations on diffusion of Co adatoms on Cu(111) , 2003 .