Hypothetical 'dark photons' could shed light on mysterious dark matter

a blue haze surrounds a galaxy in the black of space
An illustration shows a halo of dark matter surrounding the Milky Way. (Image credit: ESO/L. Calçada)

A theorized massive particle called a "dark photon" could help shine a light on the secrets of dark matter, the universe’s most mysterious substance.

Dark matter is currently a huge problem for physicists because, despite comprising as much as 85% of the stuff in our universe, it remains effectively invisible. This is because dark matter doesn’t interact with light like the everyday matter that makes up stars, planets, and even our bodies, does. Dark matter can only be inferred through its interactions with gravity and its influence on everyday matter.

This strange lack of interplay with light,  or electromagnetic radiation ,  also reveals dark matter isn’t made up of atoms that are composed of particles like protons and neutrons. That fact   has spurred scientists to search for particles that could comprise dark matter; these particles would have to outnumber the particles which make up standard matter, also known as baryons, by a ratio of 5 to 1.

While dark photons aren’t usually suggested as a candidate for dark matter itself, they could be force carriers just like "ordinary" photons are. More specifically, these particles of light carry the electromagnetic force. And if they do carry some sort of dark electromagnetic force, per se,  dark photons   could act as a go-between for dark matter and ordinary baryonic matter. Potentially, that bridge would happen via an interaction known as "kinetic mixing" with standard photons. 

Ultimately, understanding this interface could, in turn, help us understand dark matter.

Related: Astronomers weigh ancient galaxies’ dark matter haloes for 1st time

"The existence of dark matter has been firmly established from its gravitational interactions, yet its precise nature continues to elude us despite the best efforts of physicists around the world,"University of Adelaide Elder Professor of Physics Anthony Thomas said in a statement. "The existence of dark matter has been firmly established from its gravitational interactions, yet its precise nature continues to elude us despite the best efforts of physicists around the world."

Thomas was part of a team that looked at how dark photons could possibly affect collisions between particles at incredibly high energies by kinetically mixing with standard photons. Byproducts created by these collisions can give scientists a good picture of the universe at ultrasmall scales — smaller than that of the atom — as well as what physical laws are at play on these levels.

"In our latest study, we examine the potential effects that a dark photon could have on the complete set of experimental results from the deep inelastic scattering process," Thomas said.

Inelastic scattering results from billiard-ball-like collisions that happen when particles bump into one another and change the kinetic energy of the system. These inelastic collisions, first observed in 1922 in the form of X-rays scattered by a thin foil of graphite, can help scientists peer inside baryonic matter and the baryons themselves  via the effect they have on other particles like electrons, muons, and neutrinos.

The team employed a state-of-the-art framework used to measure the distribution of these other particles to see how the particles that comprise protons and neutrons  —  quarks, antiquarks, and gluons  —  have momentum distributed among them after a collision. The framework is called the Jefferson Lab Angular Momentum (JAM) parton distribution function global analysis framework. However, the researchers modified the theory underlying this framework to allow for the existence of dark photons. 

This analysis suggested the dark photon hypothesis was preferred over one that follows the Standard Model of Particle Physics, which neglects dark photons. And it did so, Thomas believes, to a significance that would be high enough in other circumstances to act as evidence for the discovery of a new particle.

Though the work doesn’t actually prove the existence of the dark photon, it surely  narrows down the parameters at which this particle could exist, and builds toward an understanding of how strongly it would kinetically interact with standard photons. For future research into the existence of dark photons, the team suggests improving  statistical analyses of all observables in the system being examined.

The team’s work was published on Sept. 15 in the Journal of High Energy Physics.

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Robert Lea
Senior Writer

Robert Lea is a science journalist in the U.K. whose articles have been published in Physics World, New Scientist, Astronomy Magazine, All About Space, Newsweek and ZME Science. He also writes about science communication for Elsevier and the European Journal of Physics. Rob holds a bachelor of science degree in physics and astronomy from the U.K.’s Open University. Follow him on Twitter @sciencef1rst.

  • Questioner
    WARNING!
    Do not read further if you are prone to hissy fits.

    "The existence of dark matter has been firmly established from its gravitational interactions,..."
    Wow! There is an overreach!

    Objectively speaking what is apparent is gravity of some sort.
    The gavity, only the gravity & nothing but the gravity.

    "... carry some sort of DARK electromagnetic force..."
    Coud one please define 'dark energy'.
    (Thank goodness academics don't buffalo chip their way through things.)*

    DM would have to be linked(?) by these photons to baryonic matter?
    So the inertialess DM is always immune to gravity, and only towed along by baryonic matter as it alone is attracted by exo-galactic curvature?
    Logically, mechanically i think that works,
    but a tow chain photon linkage begs my credibility.
    And inertialess mass IS an oxymoron.
    Doesn't that equate with some baryonic matter just towing extra gravity along with it?
    Oh well.

    Me thinks thou doth grasp at straws.

    Thought,
    Maybe this is designed more to draw attention for their hypothetical particle, the dark photon, than a 'serious' (oxymoronic?) proposal for DM?
    Scoring points as the savior of the DMies?

    Again, in galaxies, hypothetical DM would require self-contradicting responses to gravity, namely intra-galactic immunity and exo-galactic attraction.
    And to me that is a bridge too far to reach.

    But i have not gotten high in ivory towers like academics & other 'authorities',
    how dare i question them with my mere 'common' rational questions.

    *I have no problem with buffalo chiping, even by academics, but only with hypocrisy about denying it.
    Reply
  • Ryan F. Mercer
    Questioner said:
    "The existence of dark matter has been firmly established from its gravitational interactions,..."
    Wow! There is an overreach!

    You're reading too much into it. They never said dark matter is a form of matter. They describe that particular theory, but the sentence you quote doesn't assume anything more than the gravitational effect. The DARK MATTER (that's it name) gravitational effect, which may or may not be some form of matter.

    You think you're playing a clever game of gotcha, but the problem isn't your lack of "ivory tower" academics. It's your lack of reading comprehension. But go ahead, declare yourself some kind of accidental intellectual Robinhood. I'm sure you've got the science and mathematics to back it all up. Right....?
    Reply
  • Questioner
    Science does matter imo.

    Science does not produce the certainty of religious superstition.
    Acolytes for the information priesthood need not apply.

    Reason stands on wobbly legs,
    but the magnificence is that it does stand,
    on its own.

    'Dark matter' isn't matter?

    Do i need to say more?

    (you are making this too easy)
    Reply
  • ARTGLICK
    Doesn't anybody proofread what the write anymore?

    The sentence that begins ""The existence of dark matter has been firmly established..." is repeated twice in the same paragraph.

    Also is the headline a no pun intended?

    Hypothetical 'dark photons' could shed light on mysterious dark matter
    Reply
  • Questioner
    Neil DeGrass Tyson (years ago on PBS) said he thought/said (paraphrasing) its mot dark matter it's 'dark gravity'.
    That would be the sensible term for what's going on.
    Gravity is going on with as yet not any evidence at all it arises from some hypothetical matter.
    Matter is just what people's expectations project on it, but as yet the only actual evidence is of naked gravity.
    Relativity doesn’t require matter to have gravity/curvature.
    "'Dark matter' isn't matter" is a gobbledygook statement.
    Possibly the fruit of a gobbledygook thought process. :D
    If people were more precise about exactly what IS seen, they could divorce it from their reflex expectations and mull what IS there to try to understand/comprehend.
    But whatever,
    my expectations of human cognition are rather limited.
    Reply