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  1. 2081
    “…The long term fate and eventual destruction of the astrophysical objects that populate the universe -- including clusters, galaxies, stars, planets, and black holes. The material is presented in a layperson-friendly language followed by additional technical sections which explain basic equations and principles. …”
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    Cosmic update: dark puzzles : arrow of time : future history
  2. 2082
    por Bryngemark, Lene
    Publicado 2016
    “…This work details the limits on the compositeness scale of quarks in a contact interaction scenario with two different modes of interference with Standard Model processes, as well as on the threshold mass of quantum black holes in a scenario with 6 extra spatial dimensions, and on the mass of excited quark states. …”
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    Search for new phenomena in dijet angular distributions at √s = 8 and 13 TeV
  3. 2083
    por Guescini, Francesco
    Publicado 2017
    “…Excited quarks with masses below 4.06 TeV and Quantum Black Holes, QBH, with masses below 5.2 TeV have been excluded using the 2012 datasets. …”
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    Search For Resonances In The Dijet Mass Spectrum With The ATLAS Experiment At The LHC
  4. 2084
    por Johnson, Clifford V
    Publicado 2017
    “…Another couple meets on a train and discusses immortality, time, black holes, and religion. A brother and sister experiment with a grain of rice. …”
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    The dialogues: conversations about the nature of the Universe
  5. 2085
    por Brockman, John
    Publicado 2017
    “…Pulitzer Prize-winning author of Guns, Germs, and Steel Jared Diamond on the best way to understand complex problems * author of Seven Brief Lessons on Physics Carlo Rovelli on the mystery of black holes * Harvard psychologist Steven Pinker on the quantification of human progress * TED Talks curator Chris J. …”
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    Know this: today's most interesting and important scientific ideas, discoveries, and developments
  6. 2086
    “…Chakrabarti, a well-known Indian astrophysicist, presents a collection of contributions by about fifty scientists who work on diverse topics in contemporary astrophysics and space science including new and low-cost balloon borne experiments, planetary science, astrochemistry and the origin of life, ionospheric research and earthquake predictions, relativistic astrophysics around black holes, and finally, the observational signatures and radiative properties of compact objects. …”
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    Exploring the universe from near space to extra-galactic: a collection of research reviews on contemporary astrophysics and space science
  7. 2087
    por Buchmuller, Oliver
    Publicado 2022
    “…  This programme would complement other planned searches for dark matter, as well as probe mergers involving intermediate-mass black holes and explore early-universe cosmology. I will especially focus on key activities in the field: the recently funded AION project [1] in the UK, the proposed space mission proposal AEDGE and STE-QUEST [2,3], and summarise the recent Cold Atoms in Space Workshop Summary & Roadmap [4].…”
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    Quantum sensors for the AION experiment
  8. 2088
    por Magueijo, J
    Publicado 2003
    “…Some recent work on the physics of ``black'' holes and other compact objects in VSL theories is also described, highlighting phenomena associated with spatial (as opposed to temporal) variations in $c$. …”
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    New varying speed of light theories
  9. 2089
    por Simón, Joan
    Publicado 2012
    “…When available, I emphasise the use of these solitons as constituents in microscopic models of black holes. Second, the use of probe approximations to infer about the non-trivial dynamics of strongly-coupled gauge theories using the anti de Sitter/conformal field theory (AdS/CFT) correspondence. …”
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    Brane Effective Actions, Kappa-Symmetry and Applications
  10. 2090
    por Fryer, Chris L., Timmes, Frank, Hungerford, Aimee L., Couture, Aaron, Adams, Fred, Aoki, Wako, Arcones, Almudena, Arnett, David, Auchettl, Katie, Avila, Melina, Badenes, Carles, Baron, Eddie, Bauswein, Andreas, Beacom, John, Blackmon, Jeff, Blondin, Stéphane, Bloser, Peter, Boggs, Steve, Boss, Alan, Brandt, Terri, Bravo, Eduardo, Brown, E., Brown, Peter, Bruenn, Steve, Budtz-Jørgensen, Carl, Burns, Eric, Calder, Alan, Caputo, Regina, Champagne, Art, Chevalier, Roger, Chieffi, Alessandro, Chipps, Kelly, Cinabro, David, Clarkson, Ondrea, Clayton, Don, Coc, Alain, Connolly, Devin, Conroy, Charlie, Côté, Benoit, Couch, Sean, Dauphas, Nicolas, deBoer, Richard James, Deibel, Catherine, Denisenkov, Pavel, Desch, Steve, Dessart, Luc, Diehl, Roland, Doherty, Carolyn, Domínguez, Inma, Dong, Subo, Dwarkadas, Vikram, Fan, Doreen, Fields, Brian, Fields, Carl, Filippenko, Alex, Fisher, Robert, Foucart, Francois, Fransson, Claes, Fröhlich, Carla, Fuller, George, Gibson, Brad, Giryanskaya, Viktoriya, Görres, Joachim, Goriely, Stéphane, Grebenev, Sergei, Grefenstette, Brian, Grohs, Evan, Guillochon, James, Harpole, Alice, Harris, Chelsea, Austin Harris, J., Harrison, Fiona, Hartmann, Dieter, Hashimoto, Masa-aki, Heger, Alexander, Hernanz, Margarita, Herwig, Falk, Hirschi, Raphael, Hix, Raphael William, Höflich, Peter, Hoffman, Robert, Holcomb, Cole, Hsiao, Eric, Iliadis, Christian, Janiuk, Agnieszka, Janka, Thomas, Jerkstrand, Anders, Johns, Lucas, Jones, Samuel, José, Jordi, Kajino, Toshitaka, Karakas, Amanda, Karpov, Platon, Kasen, Dan, Kierans, Carolyn, Kippen, Marc, Korobkin, Oleg, Kobayashi, Chiaki, Kozma, Cecilia, Krot, Saha, Kumar, Pawan, Kuvvetli, Irfan, Laird, Alison, Laming, (John) Martin, Larsson, Josefin, Lattanzio, John, Lattimer, James, Leising, Mark, Lennarz, Annika, Lentz, Eric, Limongi, Marco, Lippuner, Jonas, Livne, Eli, Lloyd-Ronning, Nicole, Longland, Richard, Lopez, Laura A., Lugaro, Maria, Lutovinov, Alexander, Madsen, Kristin, Malone, Chris, Matteucci, Francesca, McEnery, Julie, Meisel, Zach, Messer, Bronson, Metzger, Brian, Meyer, Bradley, Meynet, Georges, Mezzacappa, Anthony, Miller, Jonah, Miller, Richard, Milne, Peter, Misch, Wendell, Mitchell, Lee, Mösta, Philipp, Motizuki, Yuko, Müller, Bernhard, Mumpower, Matthew, Murphy, Jeremiah, Nagataki, Shigehiro, Nakar, Ehud, Nomoto, Ken'ichi, Nugent, Peter, Nunes, Filomena, O'Shea, Brian, Oberlack, Uwe, Pain, Steven, Parker, Lucas, Perego, Albino, Pignatari, Marco, Pinedo, Gabriel Martínez, Plewa, Tomasz, Poznanski, Dovi, Priedhorsky, William, Pritychenko, Boris, Radice, David, Ramirez-Ruiz, Enrico, Rauscher, Thomas, Reddy, Sanjay, Rehm, Ernst, Reifarth, Rene, Richman, Debra, Ricker, Paul, Rijal, Nabin, Roberts, Luke, Röpke, Friedrich, Rosswog, Stephan, Ruiter, Ashley J., Ruiz, Chris, Savin, Daniel Wolf, Schatz, Hendrik, Schneider, Dieter, Schwab, Josiah, Seitenzahl, Ivo, Shen, Ken, Siegert, Thomas, Sim, Stuart, Smith, David, Smith, Karl, Smith, Michael, Sollerman, Jesper, Sprouse, Trevor, Spyrou, Artemis, Starrfield, Sumner, Steiner, Andrew, Strong, Andrew W., Sukhbold, Tuguldur, Suntzeff, Nick, Surman, Rebecca, Tanimori, Toru, The, Lih-Sin, Thielemann, Friedrich-Karl, Tolstov, Alexey, Tominaga, Nozomu, Tomsick, John, Townsley, Dean, Tsintari, Pelagia, Tsygankov, Sergey, Vartanyan, David, Venters, Tonia, Vestrand, Tom, Vink, Jacco, Waldman, Roni, Wang, Lifang, Wang, Xilu, Warren, MacKenzie, West, Christopher, Craig Wheeler, J., Wiescher, Michael, Winkler, Christoph, Winter, Lisa, Wolf, Bill, Woolf, Richard, Woosley, Stan, Wu, Jin, Wrede, Chris, Yamada, Shoichi, Young, Patrick, Zegers, Remco, Zingale, Michael, Portegies Zwart, Simon
    Publicado 2019
    “…It encompasses a wide range of objects and phenomena: stars, supernovae, novae, neutron stars, stellar-mass black holes, nucleosynthesis, the interstellar medium, cosmic rays and relativistic-particle acceleration, and the evolution of galaxies. …”
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    Catching Element Formation In The Act
  11. 2091
    por El-Neaj, Yousef Abou, Alpigiani, Cristiano, Amairi-Pyka, Sana, Araújo, Henrique, Balaž, Antun, Bassi, Angelo, Bathe-Peters, Lars, Battelier, Baptiste, Belić, Aleksandar, Bentine, Elliot, Bernabeu, José, Bertoldi, Andrea, Bingham, Robert, Blas, Diego, Bolpasi, Vasiliki, Bongs, Kai, Bose, Sougato, Bouyer, Philippe, Bowcock, Themis, Bowden, William, Burrage, Clare, Calmet, Xavier, Canuel, Benjamin, Caramete, Laurentiu-Ioan, Carroll, Andrew, Cella, Giancarlo, Charmandaris, Vassilis, Chattopadhyay, Swapan, Chen, Xuzong, Chiofalo, Maria Luisa, Coleman, Jonathon, Cotter, Joseph, Cui, Yanou, Derevianko, Andrei, De Roeck, Albert, Djordjevic, Goran, Dornan, Peter, Doser, Michael, Drougkakis, Ioannis, Dunningham, Jacob, Dutan, Ioana, Easo, Sajan, Elertas, Gedminas, Ellis, John, El Sawy, Mai, Fassi, Farida, Felea, Daniel, Feng, Chen-Hao, Flack, Robert, Foot, Chris, Fuentes, Ivette, Gaaloul, Naceur, Gauguet, Alexandre, Geiger, Remi, Gibson, Valerie, Giudice, Gian, Goldwin, Jon, Grachov, Oleg, Graham, Peter W., Grasso, Dario, van der Grinten, Maurits, Gündogan, Mustafa, Haehnelt, Martin G., Harte, Tiffany, Hees, Aurelien, Hobson, Richard, Holst, Bodil, Hogan, Jason, Kasevich, Mark, Kavanagh, Bradley J., von Klitzing, Wolf, Kovachy, Tim, Krikler, Benjamin, Krutzik, Markus, Lewicki, Marek, Lien, Yu-Hung, Liu, Miaoyuan, Luciano, Giuseppe Gaetano, Magnon, Alain, Mahmoud, Mohammed, Malik, Sarah, McCabe, Christopher, Mitchell, Jeremiah, Pahl, Julia, Pal, Debapriya, Pandey, Saurabh, Papazoglou, Dimitris, Paternostro, Mauro, Penning, Bjoern, Peters, Achim, Prevedelli, Marco, Puthiya-Veettil, Vishnupriya, Quenby, John, Rasel, Ernst, Ravenhall, Sean, Rejeb Sfar, Haifa, Ringwood, Jack, Roura, Albert, Sabulsky, Dylan, Sameed, Muhammed, Sauer, Ben, Schäffer, Stefan Alaric, Schiller, Stephan, Schkolnik, Vladimir, Schlippert, Dennis, Schubert, Christian, Shayeghi, Armin, Shipsey, Ian, Signorini, Carla, Soares-Santos, Marcelle, Sorrentino, Fiodor, Singh, Yajpal, Sumner, Timothy, Tassis, Konstantinos, Tentindo, Silvia, Tino, Guglielmo Maria, Tinsley, Jonathan N., Unwin, James, Valenzuela, Tristan, Vasilakis, Georgios, Vaskonen, Ville, Vogt, Christian, Webber-Date, Alex, e} Wenzlawski, Andŕ, Windpassinger, Patrick, Woltmann, Marian, Holynski, Michael, Yazgan, Efe, Zhan, Ming-Sheng, Zou, Xinhao, Zupan, Jure
    Publicado 2019
    “…We give examples of the extended range of sensitivity to ultra-light dark matter offered by AEDGE, and how its gravitational-wave measurements could explore the assembly of super-massive black holes, first-order phase transitions in the early universe and cosmic strings. …”
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    AEDGE: Atomic Experiment for Dark Matter and Gravity Exploration in Space
  12. 2092
    “…The presence of definite lacunes and black holes was determined through the analysis of T2-weighted, T1-weighted, and FLAIR images. …”
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    Online Artículo Texto
    Lacunes are associated with late-stage multiple sclerosis comorbidities
  13. 2093
    “…The numbers of T2 lesions and T1 black holes were significantly correlated with SUV of (11)C-acetate in white and gray matter. …”
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    Online Artículo Texto
    (11)C-Acetate PET Imaging in Patients with Multiple Sclerosis
  14. 2094
    “…Newer and potentially valuable outcome measures increasingly used or explored in MS trials are, clinically, the MS Functional Composite and patient-reported outcome measures, and on MRI, brain atrophy and the formation of persisting black holes. Several limitations of these measures have been addressed and further improvements will probably be proposed. …”
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    Online Artículo Texto
    Outcome Measures in Clinical Trials for Multiple Sclerosis
  15. 2095
    “…We further introduce the notion of embedded surgery in S(3) for modeling phenomena which involve more intrinsically the ambient space, such as the appearance of knotting in DNA and phenomena where the causes and effect of the process lies beyond the initial manifold, such as the formation of black holes. Finally, we connect these new theoretical concepts with a dynamical system and we present it as a model for both 2-dimensional 0-surgery and natural phenomena exhibiting a ‘hole drilling’ behavior. …”
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    Online Artículo Texto
    Extending topological surgery to natural processes and dynamical systems
  16. 2096
    “…The most predictive covariates for early identification of disease activity in patients were found to be treatment duration, higher number of new combined unique active lesion count, higher number of new T1 hypointense black holes, and higher age‐related MS severity score. …”
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    Online Artículo Texto
    Predicting disease activity in patients with multiple sclerosis: An explainable machine‐learning approach in the Mavenclad trials
  17. 2097
    por Kiritsis, Elias
    Publicado 2007
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    String Theory in a Nutshell
  18. 2098
    por Porto, Rafael
    Publicado 2013
    “…In the last part of my talk I discuss the (Lagrangian) EFT approach to LSS (LEFT, constructed borrowing ideas from the EFT for gravitational wave emission in binary black holes) which parameterizes the information from the non-linear dynamics in a systematic fashion, thus increasing the number of modes amenable to a perturbative treatment. …”
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    The Effective Field Theory approach to the early & late Universe
  19. 2099
    por Houdart, Sophie
    Publicado 2015
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    Scenarii pour (quasi-) fin du monde: traiter les dangers au CERN
  20. 2100
    por Sunyaev, Rashid
    Publicado 2018
    “…rich clusters of galaxies in the observable Universe and up to 3 millions of accreting supermassive black holes (in Active Galactic Nuclei) during 4 year long X-Ray sky survey.…”
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    Hot gas in clusters of galaxies, cosmic microwave background radiation and cosmology
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