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Cosmic latte
Cosmic latte
Cosmic latte
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Cosmic latte
 
About these coordinates     Color coordinates
Hex triplet#FFF8E7
sRGBB (r, g, b)(255, 248, 231)
HSV (h, s, v)(42°, 9%, 100%)
CIELChuv (L, C, h)(98, 15, 70°)
SourceProf. Karl Glazebrook[1]
ISCC–NBS descriptorPale yellow green
B: Normalized to [0–255] (byte)
Due to flawed calculations, the average color of the universe was originally thought to be turquoise.[2]
Cosmic spectrum green 

Cosmic latte is a term coined by a team of astronomers from Johns Hopkins University to describe the average color of the galaxies of the universe as perceived by a typical human observer from the position of the Earth. In 2002, Karl Glazebrook and Ivan Baldry determined that the average color of the universe was a whiteish green, but they soon corrected their analysis in a 2003 paper in which they reported that their survey of the light from over 200,000 galaxies averaged to a whiteish beige.[3] The hex triplet value (assuming the standard sRGB color space) for the cosmic latte color is approximately #FFF8E7.

Discovery of the color

[edit]

Finding the average colour of the universe was not the focus of the study. Rather, the study examined spectral analysis of different galaxies to study star formation. Similar to Fraunhofer lines, the dark lines displayed in the study's spectral ranges indicate older and younger stars and allow Glazebrook and Baldry to determine the age of different galaxies and star systems. What the study revealed is that the overwhelming majority of stars formed about 5 billion years ago. Because these stars would have been "brighter" in the past, the color of the universe changes over time, shifting from blue to red as more blue stars change to yellow and eventually red giants.

As light from distant galaxies reaches the Earth, the average "color of the universe" (as seen from Earth) tends towards pure white, due to the light coming from the stars when they were much younger and bluer.[4]

Naming the color

[edit]

The corrected color was initially published on the Johns Hopkins University (JHU) News website and updated on the team's initial announcement.[5] Multiple news outlets, including NPR and BBC, displayed the color in stories[6] and some relayed the request by Glazebrook on the announcement asking for suggestions for names, jokingly adding all were welcome as long as they were not "beige".[7][2]

These were the results of a vote of the JHU astronomers involved based on the new color:[8]

Color name Credit Votes
Cosmic Latte Peter Drum 6
Cappuccino Cosmico Peter Drum 17
Big Bang Buff/Blush/Beige Several entrants 13
Cosmic Cream Several entrants 8
Astronomer Green Unknown 8
Astronomer Almond Lisa Rose 7
Skyvory Michael Howard 7
Univeige Several entrants 6
Cosmic Khaki Unknown 5
Primordial Clam Chowder Unknown 4

Though Drum's suggestion of "cappuccino cosmico" received the most votes, the researchers favored Drum's other suggestion, "cosmic latte". "Latte" means "milk" in Italian, Galileo's native language, and the similar "latteo" means "milky", similar to the Italian term for the Milky Way, "Via Lattea". They enjoyed the fact that the color would be similar to the Milky Way's average color as well, as it is part of the sum of the universe.[8][9] They also claimed to be "caffeine biased".[4]

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Cosmic latte

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from Grokipedia
Cosmic latte is the average color of the , a pale, warm shade ( #FFF8E7, RGB 255, 248, 231) representing the composite from all stars and galaxies as perceived by the . It was calculated by astronomers Karl Glazebrook and K. Baldry using data from over 200,000 galaxies in the 2dF Galaxy Survey, de-redshifted to reflect the universe's emitted without expansion effects. Initially misidentified as a greenish-white due to a software , the corrected revealed this off-white tone, closer to the color of milky . The determination involved constructing the "cosmic spectrum," the ensemble optical emission from galaxies across cosmic history, validated against the Sloan Digital Sky Survey (SDSS) data for consistency in star-formation rates. This spectrum, when converted to chromaticity coordinates (x=0.345, y=0.345 in the CIE 1931 color space), aligns closely with neutral white under standard illuminants like D65 daylight. The name "cosmic latte" was selected in 2002 from public suggestions emailed to the researchers at Johns Hopkins University, evoking the Italian "latte" for milk and nodding to Galileo's "latteo" for the Milky Way, while reflecting the team's coffee affinity. Beyond its aesthetic appeal, cosmic latte provides insights into the universe's stellar content and evolution, with the slight yellowish tint arising from a higher proportion of older, redder stars compared to younger blue ones. The finding underscores the universe's overall brightness despite its vast emptiness, as the averaged light dominates over dark regions. Subsequent studies have refined these models but confirmed the hue as a benchmark for cosmic optical properties.

Overview

Definition

Cosmic latte is the term designated for the overall average color of the , determined by integrating the light spectra emitted from galaxies across the . This color emerges as the composite visual tone resulting from the mathematical blending of all stellar and galactic light, effectively representing the 's predominant hue if viewed in aggregate. The concept of an "average color" in this context refers to the normalized spectrum of in the optical range, weighted by the total energy output of within the local volume. Discovered through astronomical analysis in , cosmic latte encapsulates this blended emission, providing a snapshot of the 's luminous character. Despite this average color leaning toward a pale, creamy white, the universe appears predominantly dark to earthly observers due to the extreme dilution of across immense empty expanses between galaxies.

Color characteristics

Cosmic latte is a , creamy shade, often described as an off-white with a subtle warm undertone, resembling the color of a beverage. This color represents the average hue of from galaxies across the , derived from averaging galactic light spectra. The standard color specifications for cosmic latte are as follows:
Color ModelValues
RGB(255, 248, 231)
Hexadecimal#FFF8E7
CMYK(0, 3, 9, 0)
HSL(43°, 100%, 95%)
These values are based on conversions from the original CIE chromaticity coordinates (x=0.345, y=0.345) using standard illuminants like D65 for sRGB representation. Compared to similar colors, cosmic latte is slightly yellower and warmer than pure (which lacks its faint orange tint) and less saturated than standard , appearing more neutral and luminous overall. Its subtle yellowness stems from the dominance of stellar emission spectra in the cosmic light average, which emphasize warmer wavelengths.

Scientific determination

Data sources

The primary data for determining the cosmic latte, the average color of the , were derived from the 2dF Galaxy Redshift Survey (2dFGRS), which collected spectra and redshifts for over 200,000 galaxies spanning distances up to approximately 2–3 billion light-years. This survey provided the foundational dataset for constructing the cosmic spectrum by integrating the light from these galaxies, weighted appropriately to represent the overall energy output in the local . Observations for the 2dFGRS were conducted using the 3.9-meter Anglo-Australian Telescope equipped with the 2dF multi-fiber spectrograph, enabling simultaneous spectroscopy of up to 400 objects over a 2-degree field of view; data collection occurred primarily from 2001 to 2002, resulting in reliable redshifts for 221,414 galaxies brighter than an extinction-corrected magnitude limit of b_J = 19.45. Redshift measurements, which quantify the recession velocity of galaxies due to the universe's expansion and serve as a proxy for their distance via Hubble's law, were essential for de-redshifting the observed spectra back to their rest-frame wavelengths at z=0, ensuring the light contributions accurately reflect the intrinsic colors without distortion from cosmological expansion. Supplementary validation came from the (SDSS), a larger spectroscopic effort that provided spectra for millions of galaxies and yielded consistent color coordinates (CIE x,y ≈ 0.345, 0.345) when analyzed similarly, helping to confirm the robustness of the 2dFGRS results across broader samples. This integration of datasets by researchers Karl Glazebrook and Ivan Baldry underscored the survey's role in capturing representative galactic light for cosmic color determination.

Calculation process

The calculation process for determining cosmic latte involves transforming galaxy light spectra across ultraviolet to infrared wavelengths into a standard color model through flux measurements derived from large-scale surveys. Spectra from over 200,000 galaxies in the 2dF Galaxy Redshift Survey (2dFGRS) are de-redshifted to rest-frame wavelengths and weighted by their b_J luminosities to represent the universe's overall emission per unit volume. This luminosity weighting ensures the composite accounts for the cosmic abundance of galaxies, with fluxes normalized over key optical bands (e.g., 4200–5800 Å) before co-addition. The averaging process integrates fluxes across the , producing a composite "cosmic " that captures the blended from all galaxies. This is achieved by summing the de-ed, flux-calibrated spectra in redshift bins and scaling them proportionally to their contributions to the total luminosity density. The resulting average emphasizes the rest-frame , reflecting the integrated history and stellar populations. Instrument response corrections, such as spectrophotometric adjustments via , are applied to mitigate biases. This spectrum is then transformed to the RGB color space using CIE color matching functions (xˉ(λ)\bar{x}(\lambda), yˉ(λ)\bar{y}(\lambda), zˉ(λ)\bar{z}(\lambda)), yielding tristimulus values that map to coordinates (x ≈ 0.345, y ≈ 0.345) under a dark-adapted (Illuminant E). (2.2) is applied for display consistency. Initial efforts produced an erroneous greenish tint due to a that incorrectly set the in the color transformation, overemphasizing blue-green wavelengths relative to human vision in dark conditions. The error was identified and corrected by recalibrating the spectral integration to simulate dark-adapted eye response, shifting the perceived color to a pale beige. Validation against subsets of the 2dFGRS and complementary data confirmed the robustness of the revised methodology.

History and naming

Initial research

The initial research on the cosmic latte originated in 2001 at , led by astronomer Karl Glazebrook and postdoctoral researcher Ivan Baldry, who sought to analyze the collective light from galaxies to probe the 's stellar history and composition. Their project focused on quantifying the "fossil light" emitted during early epochs, providing insights into cosmic evolution that extended beyond traditional studies of or universe expansion. This effort utilized data from the 2dF Galaxy Survey (2dFGRS), which encompassed spectra from over 200,000 galaxies. The team's motivation stemmed from the desire to construct a representative "cosmic " that captured the average across the , integrating principles from with color science to interpret how this light would appear to human vision. By averaging the light's intensity at various wavelengths, they aimed to reveal the dominant hues resulting from stellar processes over billions of years, offering a lens on the universe's material makeup. Preliminary analysis yielded an initial spectrum indicating a greenish-white average color, akin to a pale , which the researchers presented at the 199th meeting of the in January 2002. This interdisciplinary collaboration highlighted the blend of astronomical data processing and perceptual , underscoring the project's innovative approach to translating vast spectral datasets into tangible visual concepts.

Naming and corrections

The corrected color of the was publicly announced in March , following the initial presentation, revealing a pale shade rather than the previously reported greenish . The recalculation addressed an error in the software used for color conversion, where the "" parameter had been incorrectly set, leading to an overemphasis on the channel and the greenish hue. This adjustment, identified by expert Mark Fairchild, shifted the perceived color to a subtle under typical viewing conditions, aligning better with human of the cosmic . The term "cosmic latte" was selected by the researchers from nearly 300 public submissions solicited via , including suggestions like " beige" and "cosmic cream." It was proposed by Peter Drum, whose other entry "Cappuccino Cosmico" received the most votes, but the team preferred "cosmic latte" for its alliterative appeal and nod to the Italian word for milk, evoking the . The choice was announced during a June 2002 press event, reflecting the team's affinity. The announcement garnered swift media attention, with coverage in outlets such as the BBC and New Scientist highlighting the whimsical naming and the beige correction, which helped popularize the concept beyond scientific circles.

Significance and applications

Astrophysical implications

The beige tone of cosmic latte arises from the dominance of light emitted by older, cooler G- and K-type stars, which outnumber hotter, blue O- and B-type stars in the current epoch, reflecting a star formation history where the majority of stars formed more than 5 billion years ago. Models consistent with the cosmic spectrum indicate that the star formation rate (SFR) rose steeply to a peak at redshift z12z \approx 1-2 (corresponding to about 8-10 billion years ago) before declining sharply at lower redshifts, with SFR scaling as (1+z)α(1+z)^\alpha where 2<α<32 < \alpha < 3 for z<1z < 1 and (1+z)β(1+z)^\beta where 0<β<10 < \beta < 1 for 1z<51 \leq z < 5. This decline, driven by the depletion of interstellar gas reservoirs, underscores an aging universe where ongoing star formation contributes minimally to the total stellar mass, projected to make the average color progressively redder as more stars evolve into red giants. In contrast to the cosmic microwave background (CMB), which is a blackbody spectrum at 2.725 K peaking in the microwave regime and appearing negligible in the optical band due to its low intensity there, the cosmic latte represents the integrated extragalactic background light (EBL) from stellar emissions across visible wavelengths. The CMB dominates the universe's total radiation energy density by a factor of 30-40 over the next-brightest components like the EBL, but in the optical/near-infrared, unresolved galactic light—including the cosmic spectrum—overwhelms the CMB's faint contribution, highlighting how cosmic latte captures the cumulative visible glow of galaxy evolution rather than primordial relic radiation. Spectral averaging in the cosmic spectrum reveals insights into elemental abundances, with absorption features akin to Fraunhofer lines indicating hydrogen and helium as primary constituents alongside trace metals that shape the overall continuum. Model fits to the spectrum yield an average stellar metallicity of 0.5–1 times solar (ZZ_\odot), reflecting the evolution of metal enrichment from early nucleosynthesis and supernova feedback, while Balmer series lines confirm hydrogen/helium ratios consistent with Big Bang primordial abundances modulated by subsequent stellar processing. The cosmic spectrum derived from early surveys like 2dF has been corroborated by the Sloan Digital Sky Survey (SDSS), which provides higher-resolution photometry and confirms the overall shape and normalization in absolute units (WA˚1Mpc3\mathrm{W} \, \AA^{-1} \, \mathrm{Mpc}^{-3}). Future refinements are anticipated from wide-field surveys such as Euclid and the Legacy Survey of Space and Time (LSST), which will incorporate deeper observations of distant, high-redshift galaxies to better constrain the SFR at z>5z > 5 and potentially adjust the average spectrum by accounting for fainter, more obscured populations.

Cultural and design uses

Since its naming in 2002 by astronomers at , cosmic latte has gained traction in media as an engaging representation of the universe's average hue. It was prominently featured in NASA's on December 27, 2020, highlighting the color's origins from light surveys and its whimsical contest-based name. Science publications, such as Science Focus Magazine, have covered it in articles explaining the astronomical calculation while emphasizing its approachable, everyday appeal as a "morning wake-up call" for cosmic concepts. In design fields, cosmic latte serves as a warm neutral for creating balanced, inviting spaces, often likened to a soft or greige tone. Interior designers incorporate it into palettes for serene environments, pairing it with accents like deep or sage green to evoke tranquility and harmony. Paint companies such as Benjamin Moore have referenced it in product analyses, matching its shade to promote timeless neutrals in home and branding applications. In and visual storytelling, it appears as a background for space-themed , providing a subtle, universe-inspired canvas. Cultural references to cosmic latte extend to literature and consumer products, where it symbolizes cosmic unity. Books like The Universe in 100 Colors (2024) by Tulsa authors Tyler Thrasher and Terry Mudge explore it alongside other hues, using it to discuss the cosmos's visual diversity. Merchandise includes science outreach items such as posters from , depicting cosmic latte as a galaxy-infused beverage to blend astronomy with humor. Wallpapers and mugs featuring the color evoke "the color of the cosmos" for everyday enthusiasts. Despite no significant scientific revisions since , cosmic latte maintains an enduring presence in astronomy as a memorable "fun fact," fostering public interest in galactic studies.

References

  1. https://www.iflscience.com/the-average-color-of-the-universe-is-a-morning-wake-up-call-71606
  2. https://arxiv.org/abs/astro-ph/0301005
  3. https://www.astro.ljmu.ac.uk/~ikb/Cosmic-Spectrum.html
  4. https://www.cbc.ca/news/science/astronomers-name-revised-colour-of-universe-1.339271
  5. https://www.livescience.com/average-color-of-universe.html
  6. https://pages.jh.edu/gazette/2002/11mar02/11color.html
  7. https://apod.nasa.gov/apod/ap201227.html
  8. https://www.colorhexa.com/fff8e7
  9. https://arxiv.org/abs/astro-ph/0306581
  10. https://academic.oup.com/mnras/article/328/4/1039/1082731
  11. https://arxiv.org/abs/astro-ph/0110676
  12. https://www.eurekalert.org/news-releases/461594
  13. https://www.newscientist.com/article/dn2013-the-universe-is-not-turquoise-its-beige/
  14. https://www.abc.net.au/science/articles/2002/08/01/634005.htm
  15. https://www.astronomy.com/science/universe-is-beige-not-green/
  16. https://www.astro.ljmu.ac.uk/~ikb/Cosmic_Spectrum_files/topten.htm
  17. http://news.bbc.co.uk/2/hi/science/nature/1861957.stm
  18. https://iopscience.iop.org/article/10.1086/368161
  19. https://arxiv.org/abs/1602.03512
  20. https://ned.ipac.caltech.edu/level5/March14/Madau/Madau5.html
  21. https://www.sciencefocus.com/space/universe-average-colour-cosmic-latte
  22. https://condehousejapan.com/2021/11/23/cosmic-latte/
  23. https://piktochart.com/tips/what-color-is-cosmic-latte
  24. https://www.pcimag.com/articles/90083-benjamin-moore-helps-define-the-color-of-the-universe
  25. https://piktochart.com/tips/cosmic-latte-color-palette
  26. https://www.publicradiotulsa.org/local-regional/2024-09-27/landlord-white-and-cosmic-latte-among-colors-featured-by-tulsa-authors-in-book-exploring-hues-of-the-universe
  27. https://shop-us.kurzgesagt.org/products/forbidden-foods-latte-poster
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