Diffracted Metropolis Reversed (2023) 数字艺术 由 Elkement (Elke Stangl)
“艺术”在纸上打印
这是使用非常高质量的颜料墨水在美术纸上打印并以很高的清晰度打印的过程。它的保存水平非常出色(超过100年),其质量,深度和细微差别超过了在Argentic纸上的经典照片打印。
光面漆
纤维纸除了具有非凡的厚度外,还由不含酸的α-纤维素基底组成,并覆盖有硫酸钡和在印刷过程中具有微孔层吸收作用的颜料。这款纸色为纯白色,不泛黄,特别设计用于抵抗老化。它具有出色的分辨率,呈现深沉的色彩,因此已被世界各大博物馆所采用。
Art Print“美术”-在325 g纤维原纸上的光泽处理。
我们的高端印刷品和复制品
ArtMajeur仅使用从知名造纸商中精选的具有中性pH,耐性和高质量的天然纸!
无论是在色彩控制还是在图形链方面,我们的主打印机一直都在关注。我们对质量的高要求是ArtMajeur裱框艺术品的主要资产。
关于艺术家! 您可以帮助艺术家活出自己的生活。 每当您购买印刷品时,他们都会获得使用费。
关于我们的优良打印-
该作品是“开放版”
数字艺术,
GicléePrint / 数字打印
- 外形尺寸 几种尺寸可供选择
- 独家支持 (美术纸, 金属上的印刷, 画布上打印)
- 是否含画框 有框架 (浮动框架+玻璃下, 框架+在丙烯酸玻璃下)
- 艺术品状况 艺术品完好无损
- 分类 几何 几何
I want to create something that looks a bit like the actual diffraction pattern of (inverted) spectral colors you see, but not quite. I want to celebrate the elegance of diffraction: There should be a tantalizing hint at the beauty of the underlying mathematics, and there should be one bold deviation from the true spectral colors. Maybe an alien's eye would conceive our spectral colors like that?
These curves would be created by two diffraction gratings placed back-to-back in the center of the structure. The diffraction grating has three slits: Pronounced and smaller peaks alternate with one another. Intensities are also weighted using the intensity of blackbody radiation - assuming "white light" from a star like the sun is diffracted into each "components". I am using a temperature of 7000K here, higher than the sun's ~5500K.
I work iteratively: Create a fabric of diffraction curves based on a certain geometry of the diffraction grating. Look at the structure from different angles. Spot the uncommon view. Replace the lines by dots. Tweak the geometry of the grid. Tweak the density and size of dots. Repeat.
I try to take something allegedly straight-forward you seem to know well - and turn it into an unfamiliar experience, applying a seemingly simple operation - like changing the point of view.
相关主题
elkement is crafting virtual sculptures with code (no AI!) and with pencils - structures based on mathematical functions. Her art is based on and inspired by physics, engineering, and tech. Inspired by the aesthetics of vintage patent drawings and by Sir Roger Penrose’s handcrafted sketches, elkement is searching for the nexus of science and art.
elkement enjoys spotting the uncanny in the allegedly simple and mundane. Having created virtual three-dimensional structures with code, she is always searching for an unusual perspective to challenge preconceived notions. She often juxtaposes her visual art with her Found Poetry when she presents her art (at elkement.art).
Recurring motifs in elkement's digital art are diffraction patterns. Since early childhood, elkement had been fascinated by the pure spectral colors of the rainbow and by the physics underlying their creation. Forming structures from diffraction patterns that are both based on exact math and that resemble the patterns you actually see encapsulates the beauty of the phenomena as everybody can experience them, as well as the beauty of the underlying math.
elkement is a physicist by training who fondly remembers her high school classes in descriptive geometry and fine art.
(In case you read this in a language other than English, it is an automated translation.)
This gallery profile was in March 2022. Profits for artworks created in 2022 go to Ukraine aid - to 'Cards for Ukraine' - a small, transparent organization helping Ukrainian refugees in Austria.
