Friday, 24 April, 2026 
at Anton Rauch Lecture Hall, Atominstitut, Stadionallee 2, 1020 Wien

Host: Philip Walther

Program:

9:30 Get Together with Snacks

10:00 VCQ Student Talk by Yann Valibouse

10:15: VCQ Colloquium Talk by Aephraim Steinberg

You can follow this talk via zoom here (passcode vcq_2026).

Talk details:

The Private Lives of Photons: asking particles where they spent the night 

The interaction of a resonant electromagnetic field with a cloud of two-level atoms is so well studied that one would hardly expect it to hold any more mystery, and yet it turns out to still have surprises in store when one considers the effect of post-selection. While photons famously don’t follow definite trajectories, there are interesting questions one can ask – experimentally as well as theoretically – about where they have spent their time before being observed. This raises thorny issues about how to talk about the past of a quantum system.

I will describe an experiment we initially built to observe optical nonlinearity at the single-photon level, aiming towards applications such as QND and quantum computing. I will pay particular attention to some of the strange effects we observed when post-selecting on the final state of a photon. In one, we could in a sense “amplify” the phase shift an individual photon wrote on a probe beam. Most recently, we began using this apparatus to probe how much time atoms are caused to spend in the excited state by a resonant photon. Specifically, we investigated whether the answer depends on whether the photon in question is transmitted or reflected Not only was the answer yes, but the result for transmitted photons turned out to be quite unexpected. I will present both theory and experiment supporting a simple, yet disturbing, connection between the delay time experienced by a pulse and the time atoms spend in the excited state. Finally, I will address the question of how to think about a photon which is prepared in a narrow frequency mode, but later observed at a particular time.

REFERENCES:
[1] Observation of the nonlinear phase shift due to single post-selected photons, Amir Feizpour et al., Nat. Phys. 11, 905 (2015)
[2] How the Result of Counting One Photon Can Turn Out to Be a Value of 8, Matin Hallaji et al., Nat. Phys. 13, 540 (2017)
[3] Measuring the time atoms spend in the excited state due to a photon they do not absorb, Josiah Sinclair et al., PRX Quantum 3, 010314 (2022)
[4] How much time does a resonant photon spend as an atomic excitation before being transmitted?, Kyle Thompson et al., APL Quantum 2, 036108 (2025)
[5] Experimental evidence that a photon can spend a negative amount of time in an atom cloud, Daniela Angulo et al., PRL [in press]; quant-ph/2409.03680