%0 Journal Article %J PHYSICAL REVIEW LETTERS %D 2012 %T Strong Near-Field Enhancement of Radiative Heat Transfer between Metallic Surfaces %A Králík, Tomáš %A Hanzelka, Pavel %A Martin Zobač %A Musilová, Věra %A Fořt, Tomáš %A Horák, Michal %C ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844 USA %I AMER PHYSICAL SOC %R 10.1103/PhysRevLett.109.224302 %V 109 %X Near-field heat transfer across a gap between plane-parallel tungsten layers in vacuo was studied experimentally with the temperature of the cold sample near 5 K and the temperature of the hot sample in the range 10-40 K as a function of the gap size d. At gaps smaller than one-third of the peak wavelength lambda(m) given by Wien's displacement law, the near-field effect was observed. In comparison with blackbody radiation, hundred times higher values of heat flux were achieved at d approximate to 1 mu m. Heat flux normalized to the radiative power transferred between black surfaces showed scaling (lambda(m)/d)(n), where n approximate to 2.6. This Letter describes the results of experiment and a comparison with present theory over 4 orders of magnitude of heat flux. %8 11/2012 %9 Article