AI-generated astronomy infographic showing Exoplanet Detection Methods in a clean orbital layout with a host star, planets, light curve, spectrum, and telescope geometry. Designed in a crisp monochrome scientific style with textbook engraving detail, this grah unch neech chart visual supports high-legibility editorial and educational branding.
Re-render this exact infographic with every label, heading and caption translated. We re-use all the original attributes (topic, style, palette, …) and only swap the language. Currently in English.
Astronomy infographic titled "Exoplanet Detection Methods" using ORBITAL diagram archetype, showing a central host star with multiple surrounding mini-panels that compare the main scientific techniques for finding exoplanets, arranged in a clear high-school-friendly orbital-style layout. Include an explicit label: "Diagram not to scale" and "Planet sizes and orbital distances not to scale". Render scientifically reasonable star, planet, orbit, light curve, spectrum, and telescope geometry with accurate monochrome contrast and subtle grayscale shading. Add 7 labeled callouts with canonical method names and one accurate fact each in English: "Transit Method" — "Measures periodic stellar dimming; a Jupiter-size planet crossing a Sun-size star causes about 1% brightness drop"; "Radial Velocity" — "Detects Doppler shifts in stellar spectra; Earth induces the Sun to move at about 0.09 m/s"; "Direct Imaging" — "Best for young massive planets far from their stars, often at separations of tens of AU"; "Gravitational Microlensing" — "Uses temporary lensing brightening; can detect planets thousands of light-years away"; "Astrometry" — "Tracks tiny stellar position shifts on the sky caused by orbiting planets"; "Transit Timing Variations" — "Measures changes in transit schedule caused by gravitational interactions between planets"; "Atmospheric Spectroscopy" — "During transit or eclipse, starlight can reveal atmospheric gases such as H2O, CO2, or Na". Mark key objects with names, scale-aware labels, and one accurate fact: "Host Star (Sun-like G-type star)" — "Diameter: 1.39 million km"; "Hot Jupiter" — "Mass: about 1 MJ"; "Super-Earth" — "Diameter: about 1.5 to 2 Earth diameters"; "Orbit" — "Distance example: 0.05 AU to 1 AU"; "Light Curve" — "Brightness vs time"; "Spectrum" — "Wavelength shift measures velocity"; "Background Star Lens" — "Microlensing alignment is rare and temporary". Add a small scale-reference strip in English: "Earth diameter = 12 742 km", "Jupiter diameter = 139 820 km", "1 AU = 149.6 million km", "1 light-year = 9.46 trillion km". Visual style: isometric 3D, classic black & white scientific palette, crisp inked outlines, engraved textbook feel, subtle grayscale gradients, high legibility, calm analytical mood, editorial astronomy illustration, dark-mode-friendly cosmic palette, vector-clean infographic layout. All text MUST be written in English (array). Every heading, label, caption, legend and metric name in the image must be in English — not English. Spell each English word correctly using English characters and diacritics. Numbers stay as digits, no UFO / pseudoscience imagery, no watermarks Scientifically accurate facts, no UFO / pseudoscience imagery, no astrology framing. Sizes and distances are typically not to true scale — label as such.
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