Invisible Light is a photo series, compiled by Australian photographer Brendan Fitzpatrick, that consists of X-ray images of various objects including flowers, toys and more. The Sydney-based photographer used chest x-ray and mammogram machines to create eye-catching and intriguing images that reveal the complicated innards of seemingly simply objects.
Invisible Light seeks to explore the potential that radiography -- associated primarily with medicine and healthcare -- could have in the art world.
Fitzpatrick used three kinds of subjects -- flowers, toys and creatures. He used inexpensive toys bought in discount stores and toy shops, flowers and a variety of creatures including seahorses, crab and fish. He utilized a standard X-ray machine to make x-ray images of the objects, before processing the pictures to add color and highlight interesting inner structures.
X-Ray Innards Photography
The 'Invisible Light' Photo Series Shows Inner Features of Objects
Trend Themes
1. Radiography in Art - The use of radiography in art offers a disruptive innovation opportunity to create visually stunning and intriguing images of objects with hidden innards.
2. X-ray Photography - X-ray photography presents a disruptive innovation opportunity to capture the intricate details and inner structures of various objects, providing a unique perspective.
3. Exploring Inner Features - The exploration of inner features through X-ray imaging opens up a disruptive innovation opportunity to discover hidden complexities and enhance artistic expression.
Industry Implications
1. Art - The art industry can benefit from the use of radiography and X-ray photography to create captivating and unconventional artworks with a focus on revealing hidden innards.
2. Photography - The photography industry can explore the incorporation of X-ray techniques to capture unique and thought-provoking images, expanding the boundaries of visual storytelling.
3. Medical Imaging - The medical imaging industry can consider leveraging the artistic potential of radiography to create engaging visuals that not only serve diagnostic purposes but also evoke emotional responses.