Floating internal luminescent lighting

What is claimed is: 1. A visual task or status indicator, comprising: a tube having a riser region extending away from a proximal end, and an illumination output region distal to the riser region, the tube having a tube wall comprising an optical diffuser material in both the riser region and the illumination output region; and a waveguide having a proximal end and a distal end, the waveguide including a length between the proximal and distal ends, and the waveguide being enclosed within the riser region of the tube and extending through the riser region into the illumination output region of the tube, wherein the waveguide is configured to emit light laterally in the illumination output region of the tube to directly illuminate the optical diffuser material in the tube wall, and wherein the optical diffuser material in both the riser region of the tube and the illumination output region of the tube appears, to an ordinary observer, to be continuous from the riser region through the illumination output region, when the illumination output region is not illuminated by light emitted from the waveguide. 2. The indicator of claim 1 , including: a light source coupled to the proximal end of the waveguide, having a plurality of output light modes, and circuitry to select output light modes in the plurality of output light modes in response to a control signal. 3. The indicator of claim 1 , including: a mount configured to support the tube in a vertical disposition over a workspace surface, and wherein the illumination output region is spaced above the workspace surface by the riser region of the tube, and the waveguide is configured to confine light in the riser region. 4. The indicator of claim 1 , wherein the illumination output region of the tube has uniformly treated sides so as to uniformly diffuse the light emitted from the waveguide enclosed within the tube. 5. The indicator of claim 1 , wherein the tube wall is translucent in the riser region and the illumination output region. 6. The indicator of claim 1 , wherein the waveguide comprises patterned surface features in the illumination output region of the tube to emit light of varying intensity according to the patterned surface features. 7. The indicator of claim 1 , wherein the waveguide comprises a plurality of optical fibers disposed within the tube, and is configured to emit light laterally in the illumination output region of the tube to directly illuminate the tube wall, and is configured to confine light in the riser region. 8. The indicator of claim 1 , including: a light source coupled to the proximal end of the waveguide, having a plurality of output light colors; and control circuitry coupled to the light source, to apply a control signal to selectively connect different colors of light to the waveguide.