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1. Implications of CMS analysis of photon-photon interactions for photon PDFs

   https://doi.org/10.1088/1674-1137/42/11/113101  

   Obul, Pazilet; Ababekri, Mamut; Dulat, Sayipjamal; Isaacson, Joshua; Schmidt, Carl; Yuan, C.-P. (November 2018, Chinese Physics C)
2. Effects of multi-photon states in the calibration of single-photon detectors based on a portable bi-photon source

   https://doi.org/10.1116/5.0233335  

   Pani, S; Earl, D; Becerra, F E (December 2024, AVS Quantum Science)

   Single-photon detectors (SPDs) are ubiquitous in many protocols for quantum imaging, sensing, and communications. Many of these protocols critically depend on the precise knowledge of their detection efficiency. A method for the calibration of SPDs based on sources of quantum-correlated photon pairs uses single-photon detection to generate heralded single photons, which can be used as a standard of radiation at the single-photon level. These heralded photons then allow for precise calibration of SPDs in absolute terms. In this work, we investigate the absolute calibration of avalanche photodiodes based on a portable, commercial bi-photon source, and investigate the effects of multi-photon events from the spontaneous parametric down conversion (SPDC) process in these sources. We show that the multi-photon character of the bi-photon source, together with system losses, has a significant impact on the achievable accuracy for the calibration of SPDs. However, modeling the expected photon counting statistics from the squeezed vacuum in the SPDC process allows for accurate estimation of the efficiency of SPDs, assuming that the system losses are known. This study provides essential information for the design and optimization of portable bi-photon sources for their application in on-site calibration of SPDs with high accuracy, without requiring any other reference standard. 

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3. Photon-photon interactions in Rydberg-atom arrays

   https://doi.org/10.22331/q-2022-03-30-674  

   Zhang, Lida; Walther, Valentin; Mølmer, Klaus; Pohl, Thomas (March 2022, Quantum)

   We investigate the interaction of weak light fields with two-dimensional lattices of atoms with high lying atomic Rydberg states. This system features different interactions that act on disparate length scales, from zero-range defect scattering of atomic excitations and finite-range dipole exchange processes to long-range Rydberg-state interactions, which span the entire array and can block multiple Rydberg excitations. Analyzing their interplay, we identify conditions that yield a nonlinear quantum mirror which coherently splits incident fields into correlated photon-pairs in a single transverse mode, while transmitting single photons unaffected. In particular, we find strong anti-bunching of the transmitted light with equal-time pair correlations that decrease exponentially with an increasing range of the Rydberg blockade. Such strong photon-photon interactions in the absence of photon losses open up promising avenues for the generation and manipulation of quantum light, and the exploration of many-body phenomena with interacting photons. 

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4. Pump-Intensity Scaling of Two-Photon Absorption and Photon Statistics of Entangled-Photon Fields

   https://doi.org/10.1021/acs.jpclett.5c00518  

   Jadoun, Deependra; Harbola, Upendra; Chernyak, Vladimir Y; Mukamel, Shaul (May 2025, The Journal of Physical Chemistry Letters)
5. Multi-parameter photon-by-photon hidden Markov modeling

   https://doi.org/10.1038/s41467-022-28632-x  

   Harris, Paul David; Narducci, Alessandra; Gebhardt, Christian; Cordes, Thorben; Weiss, Shimon; Lerner, Eitan (February 2022, Nature Communications)

   Abstract Single molecule Förster resonance energy transfer (smFRET) is a unique biophysical approach for studying conformational dynamics in biomacromolecules. Photon-by-photon hidden Markov modeling (H²MM) is an analysis tool that can quantify FRET dynamics of single biomolecules, even if they occur on the sub-millisecond timescale. However, dye photophysical transitions intertwined with FRET dynamics may cause artifacts. Here, we introduce multi-parameter H²MM (mpH²MM), which assists in identifying FRET dynamics based on simultaneous observation of multiple experimentally-derived parameters. We show the importance of using mpH²MM to decouple FRET dynamics caused by conformational changes from photophysical transitions in confocal-based smFRET measurements of a DNA hairpin, the maltose binding protein, MalE, and the type-III secretion system effector, YopO, fromYersiniaspecies, all exhibiting conformational dynamics ranging from the sub-second to microsecond timescales. Overall, we show that using mpH²MM facilitates the identification and quantification of biomolecular sub-populations and their origin. 

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