
Gaia: science essays
In these short (mostly 2-page, weekly) 'essays', I have picked out some of the scientific highlights of the Gaia mission as they are emerging, or as they caught my attention. They offer a somewhat chronological snapshot of some of the discoveries that Gaia is making across all of astronomy. I've also included some essays on related topics, including the history of astrometry, and some more technical, managerial, or developmental aspects of both the Hipparcos and Gaia missions. In each, I have included a footnote DR1, DR2, EDR3, DR3, etc to indicate which of the (latest) data releases the essay refers to (described in essays #10 and #76), with DR0 signifying technical or historical material not connected with any specific data release. Who are they written for? Anyone who might have a general interest in science and astronomy, including amateur astronomers, young scientists starting out on their careers, mid-career scientists looking in on Gaia for the first time to get a feeling of what is possible, and specialists looking in from different areas of astronomy, or physics more generally. Click on the access PDF icon to access the file. Only a few references are included, and these are 'discreetly' hyperlinked for those who want to read more... where references appear in the form (Einstein 1908) or www.gaia.com, clicking on the text (even though generally not highlighted!) should lead to the relevant online article. Essays 1-236 were published weekly, 237-241 monthly, and 242 onwards every two weeks. In a few cases, I've recorded an interview on the subject (see science interview page).
New: This table page lists all essays, updated to the end of June 2026 (1–235 inclusive), in tabular form. It includes a simple search on the title field.
New: These annual compilations are in both pdf and 'flipbook' form (open in new page; larger files as a download):
pdf:
flipbook:
New: The material in essays 1–239 is broadly included in my review "Space astrometry with Gaia: Advances in understanding our Galaxy" published in Physics Reports, Volume 1150, pp. 1–229 (January 2026): available here
New: This Gaia Science Tree (v4.0, June 2026) presents essays 1–235 (Jan 2021–Jun 2026) as a hyperlinked "mind map"
* all end-nodes are hyperlinked to the given essay number (links are to "legacy" copies at the CERN-Zenodo site)
* catalogue content topics are at top right, background material at bottom left, otherwise moving "outwards" clockwise in the diagram
* I have prepared this as a didactic tool. Please feel free to make use of it as you wish
I have converted Essays 1–130 into audio "discussion-type" podcasts, entirely using generative AI. They are available at my Gaia Essay YouTube channel, and I describe their construction in Essay 227.
Please make use of this subscribe page to receive an email (usually Monday) when each new essay is published
- 26Page 26
4. Hipparcos: the push to space
The background to selecting Hipparcos
By the second half of the twentieth century the steady advance in the accuracy of stellar positions from the ground was running into a number of insurmountable barriers. The biggest problem was the bending and twinkling effects of the atmosphere. The answer was to carry out these measurements from space.
25 January 2021

3. A history of astrometry
Gaia in the big historical picture
The motions of the stars and planets perplexed the curious minds of the ancient world. Great advances in understanding our place in the Universe came in the Middle Ages, driven in part by the practical demands of navigation. Instrumental advances over the past few centuries have continued to drive scientific enquiry ever since.
18 January 2021

2. Why measure star positions?
For those with little knowledge of astrometry
The positions of stars in the sky vary minutely with time for a number of reasons. Accurately and repeatedly measuring them over months and years can discern tiny motions which prove central to understanding their nature, as well as providing a wealth of information on the structure and origin of our Galaxy and beyond.
11 January 2021

1. The measurement of angles
For those with little knowledge of astrometry
The basis of astrometric measurements is the accurate measurement of tiny angles that divide up the sky. Dividing a circle, whether on paper or on an imaginary sweep of the celestial sky, is a task well-posed in principle. Practical techniques for doing so aside, it is only necessary to agree on the unit of subdivision.
4 January 2021

- 26Page 26