Gold atoms imaged

    Caption: "Image of surface reconstruction on a clean gold (Au(100)) surface, as visualized using scanning tunneling microscopy (STM). The individual atoms composing the material are visible. Surface reconstruction causes the surface atoms to deviate from the bulk crystal structure, and arrange in columns several atoms wide with regularly-spaced pits between them."

    The image is ∼ 100 X 100 Angstroms (Å) = 10 X 10 nanometers (nm), where 1 nm = 10 Å = 10**(-9) m .

    Features:

    1. This is NOT a electromagnetic radiation (EMR) image, but a sort of surface electron density map with the intensity of gold color used just to indicate variations in height and maybe density to some uncertain degree.

      The brighter columns are higher and the darker ones are lower.

    2. Actually, STM images are assigned arbitrary color.

      So why gold color? It's gold.

    3. The image maker has NOT given a linear scale, but a side of image (which is square) is probably ∼ 100 Å (i.e., ∼ 100 angstroms ≅ 10 nanometers) since gold atoms are about 2.7 Å in diameter (see Wikipedia: Atomic radius: Empirically measured atomic radius) and the joint-column-pit width ∼ 6 atoms and there are 6 joint-column-pits on a side: so 6*6*2.7 = 97.2 ≅ 100 Å. Note atomic radii are generally of order an angstrom.

    4. What can one say about atoms from the image?

      They look like fuzzy little balls. Why?

      Because atoms are fuzzy little balls. The electrons that make up almost all the size of atoms exist in a continuum superposition of positions according to quantum mechanics. Thus, there is a continuously varying electron density in atoms with NO sharp edges or jumps in electron density.

      The actual electron density depends on the particular physical state of the electrons. Images of atoms give only limited knowledge of this state and quantum mechanics calculations must be done to obtain it to high accuracy/precision.

    Credit/Permission: Erwin Rossen, before or circa 2007 (uploaded to Wikipedia by User:Nemissimo, 2007) / Public domain.
    Image link: Wikipedia: File:Atomic resolution Au100.JPG.
    Local file: local link: atom_gold.html.
    File: Atomic file: atom_gold.html.