The SURFACE EXPLORER allows you to visualize (hkl) indexed surfaces of commonly known single crystals using various options. The screen image can also be downloaded as a color PostScript file to be used for publication quality print output. Input is accepted by either filling in the form (upper part of the input page) or by providing explicit BALSAC file format input inside the file area (lower part of the input page, only for the experienced user). from simple cubic (sc), face centered cubic (fcc), body centered cubic (bcc), hexagonal closed packed (hcp), diamond, sodium chloride (NaCl), cesium chloride (CsCl), cubic zincblende (ZnS), and graphite. ==>, Choose from menu. Default is set to ‘face centered cubic (fcc)’. – (hkl) defining the surface orientation. For cubic lattices indices are based on the simple cubic notation. For hexagonal lattices only 3-index notations are provided. ==>, Fill numbers in appropriate boxes. Default values are (0 0 1). – of the crystal/surface box to be displayed. The box is built as a stack of net plane sections, each N1 by N2 atoms large, where N3 planes are included. Note that large Miller index values (hkl) may need large N3 values. Parameter Ninit sets the termination plane for non-primitive lattices. ==>, Fill numbers in appropriate boxes. Default values are 5, 5, 4, 1. – This is defined with respect the surface normal vector by a polar angle Theta (0 <,= Theta <,= 180) and an azimuthal angle Phi (0 <,= Phi <,= 360). Note that images with off-normal view may give a distorted perspective impression if viewed in parallel projection. ==>, Fill numbers in appropriate boxes. Default values are 50.0, 10.0. – This defines the plot size by a linear factor where Magnf = 1.0 denotes the standard size almost filling the whole picture area. ==>, Fill numbers in appropriate box. Default value is 1.2 (slight magnification) – You can choose between perspective and parallel projection. ==>, Choose from menu. Default is set to perspective projection (giving a 3-dimensional impression.) – of surface atoms from ‘Filled circles’, ‘Shaded balls’, and ‘Glossy balls’. ==>, Choose from menu. Default is set to ‘Glossy balls’. – sequence of surface atoms from a color menu. Atoms of different kind (nuclear charge) will be painted with different colors according to the palette shown with the menu where the selected color is used for the first element. ==>, Choose from menu. Default is set to ‘blue’. – Decide whether you want a screen image of the surface section to be displayed on the second page or not. Downloading the screen image (GIF format with up to 30k) may take a while and can be suppressed with this option. ==>, Choose from menu. Default is set to ‘Show image’. Click BUTTON to start the visualization of the present input data: – generate PostScript picture file of the surface (may be downloaded) – display screen image (GIF format) of the surface (optional) Click at the lower part of the input page starts the file input section. This allows explicit BALSAC file format input inside the file area by either keyboard or cut/paste input. This assumes familiarity with the BALSAC file format and is meant only for the experienced user. Further help on this type of input is given by clicking the HELP button at the very bottom of the input page. The authors of SURFACE EXPLORER can be reached by Source.