APS March Meeting 2012
Volume 57, Number 1
Monday–Friday, February 27–March 2 2012;
Boston, Massachusetts
Session X20: Invited Session: Physics of Color Reflective Displays
2:30 PM–5:30 PM,
Thursday, March 1, 2012
Room: 253C
Sponsoring
Unit:
FIAP
Chair: Gary Gibson, Hewlett Packard - Palo Alto
Abstract ID: BAPS.2012.MAR.X20.1
Abstract: X20.00001 : Bio-Inspired Adaptive Coloration -- Knowledge Gained by Comparison of Nature and Man-Made Technologies
2:30 PM–3:06 PM
Preview Abstract
Abstract
Author:
Jason Heikenfeld
(University of Cincinnati)
Adaptive coloration, achieved through the use of pigments and reflective
surfaces, is used by biological organisms to resemble natural surfaces
and/or vividly communicate information. The key to this approach is that
light incident on the organism is manipulated to perform the adaptive
coloration (i.e., no light is created in the process). Only recently have
man-made display technologies (E-paper) attempted to achieve similar
adaptive reflective properties. For biological organisms, as well as display
technologies, the following features must be controlled simultaneously while
minimizing optical losses: pattern, texture, multiple colors, diffuseness,
reflectance, and polarization.
Many e-Paper technologies have attempted to duplicate optical effects that
are utilized in nature. However, to date, they fail in comparison to the
optical performance of biological systems. Thus, engineers working on
adaptive reflective surfaces may benefit by examining equivalent biological
systems in greater detail than previously achieved. On the other hand,
intense research and development into adaptive reflective surfaces has given
us a mature understanding of the optics of man-made surfaces, and the
advanced measurement standards required for scientific involvement. Although
this framework currently exists, it is underutilized for the analysis of
biological coloration. To advance the field of adaptive coloration, the gap
between biology and engineering must be bridged by developing a consistent
framework of scientific metrics important to the performance of all
platforms of adaptive reflective surfaces.
In this presentation, the optics of adaptive coloration are presented in
detail. Biological and technological methods are compared based on the
construction, physics, and optical performance of each type of adaptive
coloration. These comparisons are discussed at the system (organism), device
(organ), and pixel/materials (cellular) levels. The main outcomes of this
investigation are: display engineers gain insight from techniques perfected
in nature; biologists benefit from an understanding of the types of
characterization and metrics that could be extracted from biological
organisms; and all scientists gain a clearer picture of the long-term
prospects for adaptive reflective technologies.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2012.MAR.X20.1