AI astronomy infographic showing Exoplanet Detection Methods in a solar-system-style comparison diagram with 8 labeled method panels orbiting a central host star. The art-deco celestial design uses a retro orange and teal palette, thin gold linework, and academic visual cues like light curves, spectra, wobble, and observer geometry, with hubble tuning fork included for search relevance.
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 a SOLAR SYSTEM layout adapted as a method-comparison sequence: central stylized star with 8 method panels arranged like planets on orbital tracks around it, each orbit labeled "not to scale" and the overall diagram explicitly labeled "Diagram not to scale". Show scientifically grounded astronomy visuals only, designed for a university audience. Central diagram should depict a host star and surrounding symbolic observation geometries for each method with clean vector arrows, light curves, spectra, astrometric wobble, and telescope line-of-sight indicators. Include 8 labeled callouts, each with canonical method name and one accurate fact in English: "Transit Photometry" — "Measures brightness dips; Earth transiting the Sun causes about 84 ppm dimming"; "Radial Velocity" — "Detects stellar motion via Doppler shifts; Earth induces the Sun at about 0.09 m/s"; "Direct Imaging" — "Best for young giant planets at wide separations; contrast can exceed 1,000,000:1"; "Gravitational Microlensing" — "Sensitive to planets thousands of light-years away, often near 1–10 AU from the host star"; "Astrometry" — "Measures sky-position wobble; Jupiter causes the Sun to shift by about 500 microarcseconds at 10 pc"; "Timing Variations" — "Uses precise periodic signals such as pulsars or transits; timing precision can reach milliseconds or better"; "Transit Timing Variations" — "Reveals additional planets through minute shifts in transit schedule, sometimes by seconds to minutes"; "Spectroscopy of Atmospheres" — "During transit or eclipse, absorption from H2O, CO2, Na, or CH4 can be measured in planetary atmospheres". For each orbiting method-object, add a scale-aware label such as "signal scale", "angular scale", "contrast scale", or "distance scale". Add a small English scale-reference strip at the bottom: "Earth diameter = 12,742 km", "1 AU = 149.6 million km", "1 parsec = 3.26 light-years", "Sun effective temperature = 5,772 K". Include a compact legend with exact English labels: "Host star", "Observer", "Planet orbit", "Light curve", "Spectrum", "Wobble", "Not to scale". Visual style: art-deco celestial, retro orange & teal palette, geometric ornament, thin gold linework, subtle starfield, elegant 1920s-inspired symmetry, editorial astronomy illustration, dark-mode-friendly cosmic palette, vector-clean infographic layout. Emphasize accuracy, clarity, and refined academic presentation. 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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