Si l’on mettait d’un côté ce qu’il a ingurgité durant sa vie et de l’autre ce qu’il a rendu par le haut et par le bas, cela ferait deux énormes tas. C’est ainsi qu’il se présentera un jour devant Dieu, avec ses deux tas, l’un à sa droite, l’autre à sa gauche.
Papers to read
From 31 December (2023) onward, I'm starting the new "tradition" of keeping track of the papers I need to read. By "read" I mean, really, "study" in some depth (skimming through a paper is the lot of the researcher), and typically record a summary and/or thoughts/comments on the work itself (which can be accessed by clicking on the title).
- Turning a molecule into a coherent two-level quantum system . D. Wang, H. Kelkar, D. Martin-Cano, D. Rattenbacher, A. Shkarin, T. Utikal, S. Götzinger and V. Sandoghdar in Nature Phys. 15:483 (2019). Since 14:57 on 31 December (2023) for its fundamental and extremely clean characterization of a 2LS.
- Photon Bunching in Cathodoluminescence. S. Meuret, L. Ti, N. T. Cazima, N. R. Bourrell, N. H. C., A. F. Treu and A. M. Kociak in Phys. Rev. Lett. 114:197401 (2015). Since 16:01 on 31 December (2023), for their $1/N$ analysis of the antibunching of $N$ emitters.
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Photophysics of quantum emitters in hexagonal boron-nitride nano-flakes. M. K. Boll, I. P. Radko, A. Huck and U. L. Andersen in Opt. Express 28:7475 (2020). Since 16:02 on 31 December (2023) for their flat $g^{(2)}(\tau)$ (see Fig. 3). 09:37 on 9 January (2024)
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Stable Solid-State Source of Single Photons. C. Kurtsiefer, S. Mayer, P. Zarda and H. Weinfurter in Phys. Rev. Lett. 85:290 (2000). Since 16:07 on 31 December (2023). 19:00 on 31 December (2023)
- Limitations on Practical Quantum Cryptography. G. Brassard, N. Lütkenhaus, T. Mor and B. C. Sanders in Phys. Rev. Lett. 85:1330 (2000). Since 16:17 on 31 December (2023) for SPDC being better than weak laser pulses (I'm interested in general in how weak laser pulses are useless SPS for QIP).
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Photophysics of single silicon vacancy centers in diamond: implications for single photon emission. E. Neu, M. Agio and C. Becher in Opt. Express 20:19956 (2012). Since 19:26 on 31 December (2023) for further details on shelving dynamics on $g^{(2)}$. 11:40 on 9 January (2024)
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Electrically driven photon antibunching from a single molecule at room temperature. M. Nothaft, S. Höhla, F. Jelezko, N. Frühauf, J. Pflaum and J. Wrachtrup in Nature Comm. 3:628 (2012). Since 19:28 on 31 December (2023) for further details their model for $g^{(2)}$. 18:56 on 9 January (2024)
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Multiple time scale blinking in InAs quantum dot single-photon sources. M. Davanço, C. S. Hellberg, S. Ates, A. Badolato and K. Srinivasan in Phys. Rev. B 89:161303 (2014). Since 19:31 on 31 December (2023) for details on their very elaborate rate-equation description of $g^{(2)}$. {{done|{{subst:{{subst:CURRENTTIME}} on [[{{subst:CURRENTDAY}} {{subst:CURRENTMONTHNAME}}|{{subst:CURRENTDAY}}]] [[{{subst:CURRENTMONTHNAME}}]][[{{subst:CURRENTYEAR}}| ({{subst:CURRENTYEAR}})]]}}
- Photophysics of single nitrogen-vacancy centers in diamond nanocrystals. M. Berthel, O. Mollet, G. Dantelle, T. Gacoin, S. Huant and A. Drezet in Phys. Rev. B 91:035308 (2015). Since 19:41 on 31 December (2023) for further details their model for $g^{(2)}$.
- Probabilité des jugements en matière criminelle et en matière civile, précédées des règles générales du calcul des probabilités, S. Poisson, Paris, France: Bachelier (1837). Since 18:29 on 1 January (2024) ‒ classic.
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Correlations in light emitted by three-level atoms. D. T. Pegg, R. Loudon and P. L. Knight in Phys. Rev. A 33:4085 (1986). for their quantum model producing bunching elbows Since 19:43 on 1 January (2024). 22:23 on 8 January (2024)
- Single germanium vacancy centers in nanodiamonds with bulk-like spectral stability. M. Nahra, D. Alshamaa, R. Deturche, V. Davydov, L. Kulikova, V. Agafonov and C. Couteau in AVS Quantum Sci. 3:012001 (2021). Since 20:02 on 1 January (2024) for their shelving model.
- Photon Bunching in Cathodoluminescence. S. Meuret, L. Ti, N. T. Cazima, N. R. Bourrell, N. H. C., A. F. Treu and A. M. Kociak in Phys. Rev. Lett. 114:197401 (2015). Since 20:02 on 1 January (2024) for their shelving model and supplementary material.
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Bringing home the atomic world: Quantum mysteries for anybody. N. D. Mermin in Am. J. Phys. 49:940 (1981). Since 12:43 on 2 January (2024) — one of the most beautiful papers of physics according to Feynman 14:15 on 2 January (2024)
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Is the Moon There When Nobody Looks? Reality and the Quantum Theory. N. D. Mermin in Physics Today 38:38 (1985). Since 10:25 on 2 January (2024) The polished version of the above (with a cameo by Feynman). 12:58 on 2 January (2024)
- What is quantum mechanics trying to tell us?. N. D. Mermin in Am. J. Phys. 66:753 (1998). Since 10:27 on 2 January (2024).
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The Quantum Theory and Reality. B. D'Espagnat in Sci. Am. 241:158 (1979). Since 13:20 on 2 January (2024) for being the inspiration of the above! 11:30 on 8 January (2024)
- Template:Tormas23a Since 13:25 on 2 January (2024) Plenary speaker at PLMCN24.
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Einstein, Podolsky, Rosen and Shannon. A. Peres in Found. Phys. 35:511 (2005). Since 13:43 on 4 January (2024).
- Template:Peres00a Since 15:29 on 4 January (2024) especially since this Part II is self-contained! This relates EPR to Lorentz frames, something I've always worried about.
- Photon Antibunching and Possible Ways to Observe It. D. Stoler in Phys. Rev. Lett. 33:1397 (1974). Since 12:01 on 7 January (2024) for the first (says Ou) idea to interfere a two-photon state with a coherent state to produce antibunching.
- Photon antibunching in pulsed squeezed light generated via parametric amplification. M. Koashi, K. Kono, T. Hirano and M. Matsuoka in Phys. Rev. Lett. 71:1164 (1993). Since 12:01 on 7 January (2024) realization of the above.[1]
- Observation of Nonclassical Photon Statistics due to Quantum Interference. Y. J. Lu and Z. Y. Ou in Phys. Rev. Lett. 88:023601 (2001). Since 12:13 on 7 January (2024)
- Localized visible Ba$^+$ mono-ion oscillator. W. Neuhauser, M. Hohenstatt, P. E. Toschek and H. Dehmelt in Phys. Rev. A 22:1137 (1980). Since 8 January (2024), quoted by [2] for Resonance Fluorescence of a single trapped ion.
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Nonclassical Photon Statistics in Single-Molecule Fluorescence at Room Temperature. L. Fleury, J. Segura, G. Zumofen, B. Hecht and U. P. Wild in Phys. Rev. Lett. 84:1148 (2000). Since 08:33 on 9 January (2024) for $g^{(2)}$ and their modelling of multi-level relaxations. 13:12 on 9 January (2024)
- Intensity fluctuation spectroscopy of small numbers of dye molecules in a microcavity. S. C. Kitson, P. Jonsson, J. G. Rarity and P. R. Tapster in Phys. Rev. A 58:620 (1998). Since 08:42 on 9 January (2024) for their model of multi-levels effect on $g^{(2)}$ and how this relates to Pegg[2].
- La fluorescence de résonance: étude par la méthode de l'atome habillé. S. Reynaud in Annales de Physique 8:351 (1983). Since 12:39 on 9 January (2024) for his insight on $g^{(2)}$ as conditional probabilities.
- Statistical Evaluation of Single Nano‐Object Fluorescence. M. Lippitz, F. Kulzer and M. Orrit in ChemPhysChem 6:770 (2005). Since 22:49 on 9 January (2024) for a great-looking review on $g^{(2)}(\tau)$ and blinking/intermittency.
- Spin-Polarization Mechanisms of the Nitrogen-Vacancy Center in Diamond. P. Delaney, J. C. Greer and J. A. Larsson in Nano Lett. 10:610 (2010). Since 23:17 on 9 January (2024) for a level structure that embeds a genuine cascade in the shelving state.
- Experimental test of local observer independence. M. Proietti, A. Pickston, F. Graffitti, P. Barrow, D. Kundys, C. Branciard, M. Ringbauer and A. Fedrizzi in Science Advances 5: (2019). Since 14:26 on 10 January (2024) on an experimental implementation of Wigner's friend.
- Template:Frauchiger18a Since 15:27 on 10 January (2024) on a no-go theorem for Wigner's friend.
- A No-Go Theorem for Observer-Independent Facts. C. Brukner in Entropy 20:350 (2018). Since 15:52 on 10 January (2024) on the paper which apparently started the renewal of the Wigner frenzy.
- A strong no-go theorem on the Wigner's friend paradox. K. Bong, A. Utreras-Alarcón, F. Ghafari, Y. Liang, N. Tischler, E. G. Cavalcanti, G. J. Pryde and H. M. Wiseman in Nature Phys. 16:1199 (2020). Since 15:52 on 10 January (2024) another no-go approach (implementation) of Wigner's friend.
As well as those I did finally read:
- Stable Solid-State Source of Single Photons. C. Kurtsiefer, S. Mayer, P. Zarda and H. Weinfurter in Phys. Rev. Lett. 85:290 (2000). Since 16:07 on 31 December (2023). 19:00 on 31 December (2023)
- Is the Moon There When Nobody Looks? Reality and the Quantum Theory. N. D. Mermin in Physics Today 38:38 (1985). Since 10:25 on 2 January (2024) The polished version of the one below (with a cameo by Feynman). 12:58 on 2 January (2024)
- Bringing home the atomic world: Quantum mysteries for anybody. N. D. Mermin in Am. J. Phys. 49:940 (1981). Since 12:43 on 2 January (2024) — one of the most beautiful papers of physics according to Feynman 14:15 on 2 January (2024)
- Einstein, Podolsky, Rosen and Shannon. A. Peres in Found. Phys. 35:511 (2005). Since 13:43 on 4 January (2024). 15:47 on 4 January (2024)
- The Quantum Theory and Reality. B. D'Espagnat in Sci. Am. 241:158 (1979). Since 13:20 on 2 January (2024) for being the inspiration of the above! 11:30 on 8 January (2024)
- Correlations in light emitted by three-level atoms. D. T. Pegg, R. Loudon and P. L. Knight in Phys. Rev. A 33:4085 (1986). for their quantum model producing bunching elbows Since 19:43 on 1 January (2024). 22:23 on 8 January (2024)
- Photophysics of quantum emitters in hexagonal boron-nitride nano-flakes. M. K. Boll, I. P. Radko, A. Huck and U. L. Andersen in Opt. Express 28:7475 (2020). Since 16:02 on 31 December (2023) for their flat $g^{(2)}(\tau)$ (see Fig. 3). 09:37 on 9 January (2024)
- Photophysics of single silicon vacancy centers in diamond: implications for single photon emission. E. Neu, M. Agio and C. Becher in Opt. Express 20:19956 (2012). Since 19:26 on 31 December (2023) for further details on shelving dynamics on $g^{(2)}$. Template:Check
- Nonclassical Photon Statistics in Single-Molecule Fluorescence at Room Temperature. L. Fleury, J. Segura, G. Zumofen, B. Hecht and U. P. Wild in Phys. Rev. Lett. 84:1148 (2000). Since 08:33 on 9 January (2024) for $g^{(2)}$ and their modelling of multi-level relaxations. 13:12 on 9 January (2024)
- Electrically driven photon antibunching from a single molecule at room temperature. M. Nothaft, S. Höhla, F. Jelezko, N. Frühauf, J. Pflaum and J. Wrachtrup in Nature Comm. 3:628 (2012). Since 19:28 on 31 December (2023) for further details their model for $g^{(2)}$. 18:56 on 9 January (2024) was not a necessary read (poorly screened).
- Multiple time scale blinking in InAs quantum dot single-photon sources. M. Davanço, C. S. Hellberg, S. Ates, A. Badolato and K. Srinivasan in Phys. Rev. B 89:161303 (2014). Since 19:31 on 31 December (2023) for details on their very elaborate rate-equation description of $g^{(2)}$. {{done|{{subst:{{subst:CURRENTTIME}} on [[{{subst:CURRENTDAY}} {{subst:CURRENTMONTHNAME}}|{{subst:CURRENTDAY}}]] [[{{subst:CURRENTMONTHNAME}}]][[{{subst:CURRENTYEAR}}| ({{subst:CURRENTYEAR}})]]}}
References
- ↑ Photon Antibunching and Possible Ways to Observe It. D. Stoler in Phys. Rev. Lett. 33:1397 (1974).
- ↑ 2.0 2.1 Correlations in light emitted by three-level atoms. D. T. Pegg, R. Loudon and P. L. Knight in Phys. Rev. A 33:4085 (1986).