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Universe's expansion 'is now slowing, not speeding up'

Type Ia supernova SN1994d pictured in its host galaxy NGC4526.
Researchers used type Ia supernovae, similar to SN1994d pictured in
its host galaxy NGC4526, to help establish that the universe's
expansion may actually have started to slow.
Credit
NASA/ESA
Licence type
Attribution (CC BY 4.0)
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The universe's expansion may actually have started to slow rather
than accelerating at an ever-increasing rate as previously thought, a
new study suggests.

"Remarkable" findings published today in Monthly Notices of the Royal
Astronomical Society cast doubt on the long-standing theory that a
mysterious force known as 'dark energy' is driving distant galaxies
away increasingly faster.

Instead, they show no evidence of an accelerating universe.

If the results are confirmed it could open an entirely new chapter in
scientists' quest to uncover the true nature of dark energy, resolve
the 'Hubble tension', and understand the past and future of the
universe.

Lead researcher Professor Young-Wook Lee, of Yonsei University in
South Korea, said: "Our study shows that the universe has already
entered a phase of decelerated expansion at the present epoch and
that dark energy evolves with time much more rapidly than previously
thought.

"If these results are confirmed, it would mark a major paradigm shift
in cosmology since the discovery of dark energy 27 years ago."

The Hubble residual diagram before (top) and after (bottom) the
age-bias correction. Corrections are applied to supernova data from
the Dark Energy Survey project. After correction, the dataset no
longer supports the LCDM model (red line) with a cosmological
constant, but instead more closely fits with a time-varying dark
energy model favoured by a combined analysis using only baryonic
acoustic oscillations and cosmic microwave background data (blue
line).
The Hubble residual diagram before (top) and after (bottom) the
age-bias correction. Corrections are applied to supernova data from
the Dark Energy Survey project. After correction, the dataset no
longer supports the LCDM model (red line) with a cosmological
constant, but instead more closely fits with a time-varying dark
energy model favoured by a combined analysis using only baryonic
acoustic oscillations and cosmic microwave background data (blue
line).
Son et al.
Licence type
Attribution (CC BY 4.0)
This diagram shows how the universe appears to be in a state of
decelerated expansion (red line). The dotted vertical line marks the
present epoch, while the black line shows the LCDM prediction. The
green and red lines represent the new study's model before (green)
and after (red) age-bias correction, consistent with baryonic
acoustic oscillations and cosmic microwave background data (blue
line).
This diagram shows how the universe appears to be in a state of
decelerated expansion (red line). The dotted vertical line marks the
present epoch, while the black line shows the LCDM prediction. The
green and red lines represent the new study's model before (green)
and after (red) age-bias correction, consistent with baryonic
acoustic oscillations and cosmic microwave background data (blue
line).
Son et al.
Licence type
Attribution (CC BY 4.0)

For the past three decades, astronomers have widely believed that the
universe is expanding at an ever-increasing rate, driven by an unseen
phenomenon called dark energy that acts as a kind of anti-gravity.

This conclusion, based on distance measurements to faraway galaxies
using type Ia supernovae, earned the 2011 Nobel Prize in Physics.

However, a team of astronomers at Yonsei University have now put
forward new evidence that type Ia supernovae, long regarded as the
universe's "standard candles", are in fact strongly affected by the
age of their progenitor stars.

Even after luminosity standardisation, supernovae from younger
stellar populations appear systematically fainter, while those from
older populations appear brighter.

Based on a much larger host-galaxy sample of 300 galaxies, the new
study confirmed this effect at extremely high significance (99.999%
confidence), suggesting that the dimming of distant supernovae arises
not only from cosmological effects but also from stellar astrophysics
effects.

When this systematic bias was corrected, the supernova data no longer
matched the standard LCDM cosmological model with a cosmological
constant, researchers said.

Instead, it aligned far better with a new model favoured by the Dark
Energy Spectroscopic Instrument (DESI) project, derived from baryonic
acoustic oscillations (BAO) - effectively the sound of the Big Bang -
and cosmic microwave background (CMB) data.

A picture of the Dark Energy Spectroscopic Instrument.
DESI is a state-of-the-art instrument which maps distant objects to
study dark energy.
Marilyn Sargent/Berkeley Lab
Licence type
Attribution (CC BY 4.0)

The corrected supernova data and the BAO+CMB-only results both
indicate that dark energy weakens and evolves significantly with
time.

More importantly, when the corrected supernova data were combined
with BAO and CMB results, the standard LCDM model was ruled out with
overwhelming significance, the researchers said.

Most surprising of all, this combined analysis indicates that the
universe is not accelerating today as previously thought, but has
already transitioned into a state of decelerated expansion.

Professor Lee added: "In the DESI project, the key results were
obtained by combining uncorrected supernova data with baryonic
acoustic oscillations measurements, leading to the conclusion that
while the universe will decelerate in the future, it is still
accelerating at present.

"By contrast, our analysis -- which applies the age-bias correction --
shows that the universe has already entered a decelerating phase
today. Remarkably, this agrees with what is independently predicted
from BAO-only or BAO+CMB analyses, though this fact has received
little attention so far."

To further confirm their results, the Yonsei team are now carrying
out an "evolution-free test", which uses only supernovae from young,
coeval host galaxies across the full redshift range. The first
results already support their main conclusion.

The Vera C. Rubin Observatory.
The Vera C. Rubin Observatory began scientific operations this year
and could answer vital questions about our own solar system and the
wider universe.
RubinObs/NOIRLab/SLAC/NSF/DOE/AURA
Licence type
Attribution (CC BY 4.0)

"Within the next five years, with the Vera C. Rubin Observatory
discovering more than 20,000 new supernova host galaxies, precise age
measurements will allow for a far more robust and definitive test of
supernova cosmology,: said research professor Chul Chung, a co-lead
on the study along with PhD candidate Junhyuk Son.

The Vera C. Rubin Observatory, which sits on a mountain in the
Chilean Andes, is home to the world's most powerful digital camera.
It began scientific operations this year and could answer vital
questions about our own solar system and the wider universe.

After the Big Bang and the rapid expansion of the universe some 13.8
billion years ago, gravity slowed it down. But in 1998, it was
established that nine billion years after the universe began, its
expansion had started to speed up again, driven by a mysterious
force.

Astronomers dubbed this dark energy, but despite it making up about
70 per cent of the universe it is still considered to be one of the
greatest mysteries in science.

Last year, data from DESI in Tucson, Arizona suggested that the force
exerted by dark energy had changed over time, evidence for which has
been growing ever since.

The hope is that with these new tools in their arsenal, astronomers
will now be better equipped to find clues about what exactly dark
energy is and how it influences the universe.

ENDS

---------------------------------------------------------------------

Media contacts

Sam Tonkin

Royal Astronomical Society

Mob: +44 (0)7802 877 700

press@ras.ac.uk

 

Dr Robert Massey

Royal Astronomical Society

Mob: +44 (0)7802 877 699

press@ras.ac.uk

---------------------------------------------------------------------

Science contacts

Professor Young-Wook Lee

Yonsei University, Seoul, South Korea

ywlee2@yonsei.ac.kr

---------------------------------------------------------------------

Images & captions

Type Ia supernova

Caption: Researchers used type Ia supernovae, similar to SN1994d
pictured in its host galaxy NGC4526, to help establish that the
universe's expansion may actually have started to slow.

Credit: NASA/ESA

 

Figure 1

Caption: The Hubble residual diagram before (top) and after (bottom)
the age-bias correction. Corrections are applied to supernova data
from the Dark Energy Survey project. After correction, the dataset no
longer supports the LCDM model (red line) with a cosmological
constant, but instead more closely fits with a time-varying dark
energy model favoured by a combined analysis using only baryonic
acoustic oscillations and cosmic microwave background data (blue
line).

Credit: Son et al.

 

Figure 2

Caption: This diagram shows how the universe appears to be in a state
of decelerated expansion (red line). The dotted vertical line marks
the present epoch, while the black line shows the LCDM prediction.
The green and red lines represent the new study's model before
(green) and after (red) age-bias correction, consistent with baryonic
acoustic oscillations and cosmic microwave background data (blue
line).

Credit: Son et al.

 

Dark Energy Spectroscopic Instrument

Caption: DESI is a state-of-the-art instrument which maps distant
objects to study dark energy.

Credit: Marilyn Sargent/Berkeley Lab

 

Vera C. Rubin Observatory

Caption: The Vera C. Rubin Observatory began scientific operations
this year and could answer vital questions about our own solar system
and the wider universe.

Credit: RubinObs/NOIRLab/SLAC/NSF/DOE/AURA

---------------------------------------------------------------------

Further information

The paper 'Strong Progenitor Age-bias in Supernova Cosmology. II.
Alignment with DESI BAO and Signs of a Non-Accelerating Universe' by
Junhyuk Son, Young-Wook Lee, Chul Chung, Seunghyun Park, and Hyejeon
Cho has been published in Monthly Notices of the Royal Astronomical
Society. DOI: 10.1093/mnras/staf1685.

---------------------------------------------------------------------

Notes for editors

About the Royal Astronomical Society

The Royal Astronomical Society (RAS), founded in 1820, encourages and
promotes the study of astronomy, solar-system science, geophysics and
closely related branches of science.

The RAS organises scientific meetings, publishes international
research and review journals, recognises outstanding achievements by
the award of medals and prizes, maintains an extensive library,
supports education through grants and outreach activities and
represents UK astronomy nationally and internationally. Its more than
4,000 members (Fellows), a third based overseas, include scientific
researchers in universities, observatories and laboratories as well
as historians of astronomy and others.

The RAS accepts papers for its journals based on the principle of
peer review, in which fellow experts on the editorial boards accept
the paper as worth considering. The Society issues press releases
based on a similar principle, but the organisations and scientists
concerned have overall responsibility for their content.

Keep up with the RAS on Instagram, Bluesky, LinkedIn, Facebook and 
YouTube.

Submitted by Sam Tonkin on Thu, 06/11/2025 - 00:00

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