Ferromagnetism in one-dimensional monatomic metal chains

Two-dimensional systems, such as ultrathin epitaxial films and superlattices, display magnetic properties distinct from bulk materials. A challenging aim of current research in magnetism is to explore structures of still lower dimensionality. As the dimensionality of a physical system is reduced, magnetic ordering tends to decrease as fluctuations become relatively more important. Spin lattice models predict that an infinite one-dimensional linear chain with short-range magnetic interactions spontaneously breaks up into segments with different orientation of the magnetization, thereby prohibiting long-range ferromagnetic order at a finite temperature. These models, however, do not take into account kinetic barriers to reaching equilibrium or interactions with the substrates that support the one-dimensional nanostructures. Here we demonstrate the existence of both short- and long-range ferromagnetic order for one-dimensional monatomic chains of Co constructed on a Pt substrate. We find evidence that the monatomic chains consist of thermally fluctuating segments of ferromagnetically coupled atoms which, below a threshold temperature, evolve into a ferromagnetic long-range-ordered state owing to the presence of anisotropy barriers. The Co chains are characterized by large localized orbital moments and correspondingly large magnetic anisotropy energies compared to two-dimensional films and bulk Co.

[1]  Jeffrey J. Plaut,et al.  Surface Ages and Resurfacing Rates of the Polar Layered Deposits on Mars , 2000 .

[2]  R. Birgeneau,et al.  Magnetism in one dimension , 1978 .

[3]  M. Richardson,et al.  Martian surface winds: Insensitivity to orbital changes and implications for aeolian processes , 2001 .

[4]  Thole,et al.  X-ray circular dichroism as a probe of orbital magnetization. , 1992, Physical review letters.

[5]  Chen,et al.  Experimental confirmation of the X-ray magnetic circular dichroism sum rules for iron and cobalt. , 1995, Physical review letters.

[6]  Samant,et al.  Microscopic origin of magnetic anisotropy in Au/Co/Au probed with x-ray magnetic circular dichroism. , 1995, Physical review letters.

[7]  R. Wiesendanger,et al.  Atomic-scale magnetic domain walls in quasi-one-dimensional Fe nanostripes. , 2001, Physical review letters.

[8]  H. Dürr,et al.  SPIN AND ORBITAL MAGNETIZATION IN SELF-ASSEMBLED CO CLUSTERS ON AU(111) , 1999 .

[9]  A. Freeman,et al.  Structural, electronic and magnetic properties of Co/Pd(111) and Co/Pt(111) , 1991 .

[10]  M. Weinert,et al.  Magnetism of linear chains , 1983 .

[11]  N. Mermin,et al.  Absence of Ferromagnetism or Antiferromagnetism in One- or Two-Dimensional Isotropic Heisenberg Models , 1966 .

[12]  K. Kern,et al.  Co growth on Pt(997) : from monatomic chains to monolayer completion , 2000 .

[13]  H. Elmers,et al.  Dipolar superferromagnetism in monolayer nanostripes of Fe(110) on vicinal W(110) surfaces , 1998 .

[14]  Heuer,et al.  Submonolayer magnetism of Fe(110) on W(110): Finite width scaling of stripes and percolation between islands. , 1994, Physical review letters.

[15]  Dominique Mailly,et al.  Experimental evidence of the Neel-Brown model of magnetization reversal , 1997 .

[16]  G. Pastor,et al.  Magnetic Anisotropy of One-Dimensional Nanostructures of Transition Metals , 1998 .

[17]  K. Kern,et al.  One-dimensional metal chains on Pt vicinal surfaces , 2000 .

[18]  Magnetic recording materials since 1975 , 1991 .

[19]  A. Miedema,et al.  Experiments on simple magnetic model systems , 1978 .

[20]  M. Mellon,et al.  The Mars Water Cycle at Other Epochs: Recent History of the Polar Caps and Layered Terrain , 1992 .

[21]  Joachim Stöhr,et al.  Magnetic properties of transition-metal multilayers studied with X-ray magnetic circular dichroism spectroscopy , 1998, IBM J. Res. Dev..

[22]  D. C. Mattis,et al.  Mathematical physics in one dimension , 1966 .

[23]  D. Haar,et al.  Statistical Physics , 1971, Nature.

[24]  R. Skomski,et al.  Magnetism in one dimension: Fe on Cu(111) , 1997 .

[25]  Fuhrmann,et al.  Two-dimensional magnetic particles , 1998, Science.

[26]  R. Muniz,et al.  Exchange coupling in transition-metal ferromagnets , 2000 .

[27]  E. Ising Beitrag zur Theorie des Ferromagnetismus , 1925 .

[28]  K. Kern,et al.  Building one- and two-dimensional nanostructures by diffusion-controlled aggregation at surfaces , 1993, Nature.

[29]  J. Crangle,et al.  Dilute Ferromagnetic Alloys , 1965 .

[30]  G. Laan,et al.  Microscopic origin of magnetic anisotropy in Au/Co/Au probed with x-ray magnetic circular dichroism. , 1995 .