Artwork details
Name:
Astromorphic Chromocosmology #1
Year:
2025
Medium:
Outer Space on ceramic tile
Dimensions:
25mm x 25mm x 2mm
Status:
In preparation
Space Mission details
Launch date:
Planned: April 2026
Destination:
International Space Station (ISS)
Artwork details
Name:
Astromorphic Chromocosmology #1
Year:
2025
Medium:
Outer Space on ceramic tile
Dimensions:
25mm x 25mm x 2mm
Status:
In preparation
Space Mission details
Launch date:
Planned: April 2026
Destination:
International Space Station (ISS)
Artwork details
Name:
Astromorphic Chromocosmology #1
Year:
2025
Medium:
Outer Space on ceramic tile
Dimensions:
25mm x 25mm x 2mm
Status:
In preparation
Space Mission details
Launch date:
Planned: April 2026
Destination:
International Space Station (ISS)
Artwork:
Astromorphic Chromocosmology #1
Astromorphic Chromocosmology is the first in a series of artworks that explore how outer space can act as an active co-creator of artistic creation. By exposing colour pigments and materials to atomic oxygen, vacuum, and unfiltered solar radiation, the works are transformed by forces beyond human control. What begins as a minimal composition returns as an altered surface—marked, eroded, and reshaped by space itself.
At the same time, these works function as a living color study. Each pigment becomes a probe, revealing how space alters hue, depth, and brilliance over time. This chromocosmology is both aesthetic and experimental: a color theory that treats space not as backdrop but as an active collaborator, generating new palettes that could never exist on Earth.
Artwork:
Astromorphic Chromocosmology #1
Astromorphic Chromocosmology is the first in a series of artworks that explore how outer space can act as an active co-creator of artistic creation. By exposing colour pigments and materials to atomic oxygen, vacuum, and unfiltered solar radiation, the works are transformed by forces beyond human control. What begins as a minimal composition returns as an altered surface—marked, eroded, and reshaped by space itself.
At the same time, these works function as a living color study. Each pigment becomes a probe, revealing how space alters hue, depth, and brilliance over time. This chromocosmology is both aesthetic and experimental: a color theory that treats space not as backdrop but as an active collaborator, generating new palettes that could never exist on Earth.
Artwork:
Astromorphic Chromocosmology #1
Astromorphic Chromocosmology is the first in a series of artworks that explore how outer space can act as an active co-creator of artistic creation. By exposing colour pigments and materials to atomic oxygen, vacuum, and unfiltered solar radiation, the works are transformed by forces beyond human control. What begins as a minimal composition returns as an altered surface—marked, eroded, and reshaped by space itself.
At the same time, these works function as a living color study. Each pigment becomes a probe, revealing how space alters hue, depth, and brilliance over time. This chromocosmology is both aesthetic and experimental: a color theory that treats space not as backdrop but as an active collaborator, generating new palettes that could never exist on Earth.
Simulation
This tracker simulates the projected state of the Astromorphic Chromocosmology in space.
The model grabs the real-time position of the International Space Station (ISS) and plots it on a globe. It then uses a custom physics model to calculate and simulate the extimated Ultraviolet Radiation exposure (UV), the Atomic Oxygen exposure (AO) and the surface temperature of the space exposed Macor substrate.
Additionally it calculates the heading the Macor substrate is facing, and the indicated position of the sun.
Simulation
This tracker simulates the projected state of the Astromorphic Chromocosmology in space.
The model grabs the real-time position of the International Space Station (ISS) and plots it on a globe. It then uses a custom physics model to calculate and simulate the extimated Ultraviolet Radiation exposure (UV), the Atomic Oxygen exposure (AO) and the surface temperature of the space exposed Macor substrate.
Additionally it calculates the heading the Macor substrate is facing, and the indicated position of the sun.
© 2013–2025
Created by Arno. Curated by Space.
© 2013–2025
Created by Arno. Curated by Space.
© 2013–2025
Created by Arno. Curated by Space.