Light fields have entropy, as already discussed by Planck.
As a consequence, photons have entropy.

The entropy of single photons is some factor of order unity times the Boltzmann constant. The topic has been discussed in many *theoretical* papers. Some are mentioned below.

For the present question, the photon is assumed to have a known (not fully specified) energy, and no known polarization.

Have *measurements* of the single-photon entropy ever been performed or published? Google Scholar yields nothing on the issue. The question is thus: has the entropy of a single photon taken out from a photon field ever been measured?

Or is there some other *experimental* confirmation of single-photon entropy?


EDIT 1 and 2 combined:
**Here are some theoretical references.**

Li, Li and Yang, 2022 [https://www.mdpi.com/1099-4300/24/11/1609#FD2-entropy-24-01609][1]

[1]: https://www.mdpi.com/1099-4300/24/11/1609#FD2-entropy-24-01609

van Enk, S.; Nienhuis, G. Entropy production and kinetic effects of light. Phys. Rev. A 1992, 46, 1438–1448. 

Kirwan, A.D. Intrinsic photon entropy? The darkside of light. Int. J. Eng. Sci. 2004, 42, 725–734. 

Zimmermann, H. Particle Entropies and Entropy Quanta II. The Photon Gas. Zeitschrift für Physikalische Chemie 2000, 214, 347.