Reading is an indispensable tool in research; it adds substance to an overwhelmingly long calculation, puts into a wider perspective a paper in progress, and it is a vital part of the overall process of communication of results in the larger scientific community. In addition to all this, I want to highlight that reading is fun and so I decided to share in this page some of the things I read. Click, enjoy, and share!
|
|
*Preprint - version of a scholarly or scientific paper that precedes formal peer review and publication in a peer-reviewed scholarly or scientific journal (Wikipedia).
- The Well-Tempered Cosmological Constant: The Horndeski Variations [Appleby & Linder]
- The Well-Tempered Cosmological Constant: Fugue in B$^\flat$ [Appleby & Linder]
- Gravitational wave lensing beyond general relativity: birefringence, echoes and shadows [Ezquiaga & Zumalacárregui]
- Chaotic exits from a weakly magnetized Schwarzschild black hole [Bautista & Vega]
- Gravitational Collapse in Cubic Horndeski Theories [Figueras & Franca]
- Exploring the self-tuning of the cosmological constant from Planck mass variation [Blanco & Lombriser]
- Gravitational waves and geometrical optics in scalar-tensor theories [Garoffolo et al.]
- Comparison of different approaches to the quasi-static approximation in Horndeski models [Pace et al.]
- Semiclassical gravitational collapse of a radially symmetric massless scalar quantum field [Guenther, Hoelbling, & Varnhorst]
- The Observational Future of Cosmological Scalar-Tensor Theories [Alonso et al.]
- [2012.14984] xPPN: An implementation of the parametrized post-Newtonian formalism using xAct for Mathematica [Hohmann]
- [2101.02168] Dynamical dark energy after Planck CMB final release and $H_0$ tension [Yang, et al.]
- [2101.06600] Black hole quasinormal modes in Deser-Woodard nonlocal gravity [Chen & Park]
- [2102.10123] Dark sector interactions and the curvature of the Universe in light of Planck's 2018 data [Benetti, et al.]
- [2102.06149] Reconstruction of the dark sectors' interaction: A model-independent inference and forecast from GW standard sirens [Bonilla et al.]
- [2103.01318] A dynamical dark energy solution to Hubble-Lemaître tension in the light of the multimessenger era [Escamilla-Rivera]
- [2103.01923] Gravitational-Wave Detector Networks: Standard Sirens on Cosmology and Modified Gravity Theory [Yang]
- [2103.01183] In the Realm of the Hubble tension $-$ a Review of Solutions [Di Valentino, et al.]
- [2103.00026] The quasi normal modes of growing dirty black holes [Bamber, Tattersall, Clough, & Ferreira]
- [2103.03595] Accretion of Dark Matter onto a Moving Schwarzschild Black Hole: An Exact Solution [Mach & Odrzywolek]
- [2012.08785] Testing loop quantum gravity from observational consequences of non-singular rotating black holes [Brahma, Chen, & Yeom]
- [2104.04484] Improving data-driven model-independent reconstructions and new constraints in Horndeski cosmology [Reyes & Escamilla-Rivera]
- [2104.04505] Theoretical and observational bounds on some interacting vacuum energy scenarios [Yang, Pan, Salo, & de Haro]
- [2105.12582] Modified Gravity and Cosmology: An Update by the CANTATA Network
- [2105.12970] A data-driven Reconstruction of Horndeski gravity via the Gaussian processes [Bernardo & Levi Said]
- [2105.12312] H0 tension without CMB: beyond ΛCDM [Okamatsu, Sekiguchi, & Takahashi]
- [2106.08688] Towards a model-independent reconstruction approach for late-time Hubble data [Bernardo & Levi Said]
- [2106.06589] Cosmology with Love [Chatterjee, et al.]
- [2106.13793] Teleparallel Gravity: From Theory to Cosmology [Bahamonde, et al.]
- [2106.15574] Scalarized Black Holes [Blazquez-Salcedo, Kleihaus, & Kunz]
- [2107.07839] Hairy Black Holes from Horndeski Theory [Bergliaffa, Maier, & Silvano]
- [2107.07514] Do Gedankenexperiments compel quantization of gravity? [Rydving, Aurell, & Pikovski]
- [2107.10291] The $H_0$ Olympics: A fair ranking of proposed models [Nils Schöneberg, et al.]
- [2107.08762] Well-Tempered Teleparallel Horndeski Cosmology: A Teleparallel Variation to the Cosmological Constant Problem [Bernardo, Levi Said, Caruana, & Appleby]
- [2108.02500] Well-Tempered Minkowski Solutions in Teleparallel Horndeski Theory [Bernardo, Levi Said, Caruana, & Appleby]
- [2108.04853] Modified Teleparallel Gravity induced by quantum fluctuations [Chen & Kung]
- [2108.06294] Ghosts without runaway [Deffayet, Mukohyama, & Vikman]
- [2108.03853] Impact of $H_0$ priors on $f(T)$ late time cosmology [Briffa, et al.]
- [2108.13228] On Larger $H_0$ Values in the CMB Dipole Direction [Luongo, et al.]
- [2107.12992] Imprints of cosmological tensions in reconstructed gravity [Pogosian, et al.]
- [2110.07634] No slip gravity in light of LISA standard sirens [Allahyari, Nunes, & Mota]
- [2110.14689] Unifying gravitational waves and dark energy [Garoffolo & Contigiani]
- [2110.04087] Black Holes in $f(T,B)$ Gravity: Exact and Perturbed Solutions [Bahamonde, et al.]
- [2109.00564] Curved accretion disks around rotating black holes without reflection symmetry [Chen & Yang]
- [2111.11400] Gravitational collapse of quantum fields and Choptuik scaling [Berczi, Saffin, & Zhou]
- [2111.11761] Confronting quantum-corrected teleparallel cosmology with observations [Bernardo, Chen, Levi Said, & Kung]
- [2111.11448] Generalised scalar-tensor theories and self-tuning [Copeland, Ghataore, Niedermann, & Padilla]
- [2112.00241] Challenges for the statistical gravitational-wave method to measure the Hubble constant [Trott & Huterer]
- [2111.08289] Parametric and nonparametric methods hint dark energy evolution [Bernardo, Grandon, Levi Said, & Cardenas]
- [2111.10742] Testing time-delayed cosmology [Palpal-latoc, Bernardo, & Vega]
- [2112.04089] Translating neutron star observations to nuclear symmetry energy via artificial neural networks [Krastev]
- [2112.06892] Constraining cosmological scaling solutions of a Galileon field [Albuquerque, Frusciante, & Martinelli]
- [2112.10641] Do cosmological observations allow a negative Lambda? [Sen, Adil, & Sen]
- [2112.14730] Quantum Gravity Corrections to the Fall of the Apple [Chawla & Parikh]
- [2112.15529] Black Hole Binaries in Cubic Horndeski Theories [Figueras & Franca]
- [2201.01397] Inferring Astrophysical Parameters of Core-Collapse Supernovae from their Gravitational-Wave Emission [Brito, Bernar, & Crispino]
- [2201.01397] Inferring Astrophysical Parameters of Core-Collapse Supernovae from their Gravitational-Wave Emission [Powell & Muller]
- [2201.02211] Well Tempered Cosmology: Scales [Linder]
- [2201.06767] Timing-residual power spectrum of a polarized stochastic gravitational-wave background in pulsar-timing-array observation [Liu & Ng]
- [2201.09016] A minimal self tuning model to solve the cosmological constant problem [Khan & Taylor]
- [2201.11623] Simultaneously solving the H0 and sigma8 tensions with late dark energy [Heisenberg, Villarrubia-Rojo, Zoso]
- [2202.02205] Solutions of the Einstein equations for a black hole surrounded by a galactic halo [Konoplya & Zhidenko]
- [2203.06160] Axion Instability Supernovae [Sakstein, Croon, & McDermott]
- [2202.08460] Dressed black holes in the new tensor-vector-scalar theory [Bernardo & Chen]
- [2202.08672] Tadpole Cosmology: Self Tuning Without Degeneracy [Appleby & Bernardo]
- [2206.01056] Looking out for the Galileon in the nanohertz gravitational wave sky [Bernardo & Ng]
- [2206.04601] Reinterpreting deformations of the Heisenberg algebra [Wagner]
- [2205.14134] Searching for dark energy with the Sun [Saltas & Christensen-Dalsgaard]
- [2205.05637] Variance of the Hellings-Downs Correlation [Allen]
- [2206.11257] A Possible Solution to the Helium Anomaly of EMPRESS VIII by Cuscuton Gravity Theory [Kohri & Maeda]
- [2205.10881] Improving cosmological covariance matrices with machine learning [de Santi & Abramo]
- [2205.09145] Multi-messenger constraints on the Hubble constant through combination of gravitational waves, gamma-ray bursts and kilonovae from neutron star mergers [Bulla, et al.]
- [2206.12375] Measuring dark energy with expansion and growth [Perenon, et al.]
- [2206.05064] The minimal length is physical [Bosso, Petruzziello, & Wagner]
- [2207.01836] Overlap reduction function for gravitational wave detectors in an expanding Universe [Zhu]
- [2207.07576] Measuring dark matter spikes around primordial black holes with Einstein Telescope and Cosmic Explorer [Cole, et al.]
- [2208.07663] Quantum and higher curvature corrections to the anti-de Sitter black hole [Villegas & Bernardo]
- [2208.12538] Stochastic gravitational wave background phenomenology in a pulsar timing array [Bernardo & Ng]
- [2209.14834] Pulsar and cosmic variances of pulsar timing-array correlation measurements of the stochastic gravitational wave background [Bernardo & Ng]
- [2207.12237] Evaluating the prevalence of spurious correlations in pulsar timing array datasets [Zic, et al.]
- [2207.11633] Hide and Seek: Screened Scalar Fields in Hydrogen and Muonium [Brax, Davis, & Elder]
- [2208.00704] Towards VLBI Observations of Black Hole Structure [Carballo-Rubio, Cardoso, & Younsi]
- [2208.02307] Disentangling Multiple Stochastic Gravitational Wave Background Sources in PTA Datasets [Kaiser, et al.]
- [2210.00014] Strongly Lensed Supermassive Black Hole Binaries as Nanohertz Gravitational-Wave Sources [Khusid, et al.]
“Science and everyday life cannot and should not be separated.” – Rosalind Franklin
- The Most Famous Paradox in Physics Nears Its End [Quanta]
- No, Stephen Hawking’s Black Hole Information Paradox Hasn’t Been Solved [Forbes]
- First room-temperature superconductor excites — and baffles — scientists [Nature]
- Pinoy ethnoastronomy: How the stars guided our ancestors [FlipScience]
- Uncertain prospects for postdoctoral researchers [Nature]
- This year taught us that no good news is too small to share [Science]
- Science and Policy Collide During the Pandemic [TheScientist]
- When sound science meets imperfect grammar [Science]
- The math behind epidemics [Physics Today]
- Phosphine might not exist on Venus after all [National Geographic]
- The future of meetings [Physics Today]
- Q&A: Physicist Kathryn Schaffer moves in the art world [Physics Today]
- Evolutionary insights into shape-shifting proteins [Physics Today]
- Stressed? Depressed? You are not alone [Physics Today]
- Ask Theory Podcast Ep. 9: Bakit Ba Natin Pinag-Aaralan Ang Mga Black Hole? (with Dr. Ian Vega) [FlipScience]
- This free Pinoy-made game shows how quickly COVID-19 spreads in a community [FlipScience]
- Coronavirus diaries: Laughter is the best medicine [Nature]
- What I learnt from 700 e-mail applications [Nature]
- Tips from neuroscience to keep you focused on hard tasks [Nature]
- Plasma generation by household microwave oven for surface modification and other emerging applications [American Journal of Physics]
- A month on Mars: what NASA’s Perseverance rover has found so far [Nature]
- How many T. rex ever existed? Calculation of dinosaur’s abundance offers an answer [Nature]
- The 100 memes that immortalize my PhD defence [Nature]
- How philosophy is making me a better scientist [Nature]
- How COVID-19 has stomped on scientists’ travel plans [Nature]
- The most detailed 3D map of the Universe ever made [Nature]
- Commentary: The publication pandemic [Physics Today]
- Delta coronavirus variant: scientists brace for impact [Nature]
- Living cells on the move [Physics Today]
- How I learned to embrace my identity as an academic with immigrant working-class roots [Science]
- Universities ramp up efforts to improve faculty gender balance and work climate in STEM [Physics Today]
- The vanishing neutrinos that could upend fundamental physics [Nature]
- I critiqued my past papers on social media — here’s what I learnt [Nature]
- Steven Weinberg (1933–2021) [Physics Today]
- More women than ever are starting careers in science [Nature]
- Excitement as Mars rover drills first rock core for return to Earth [Nature]
- They may have founded Rome, then vanished. New work sheds light on the mysterious Etruscans [Science]
- Vampire bats take their blood meals with friends [Science]
- ‘No one could have predicted.’ DNA offers surprises on how Polynesia was settled [Science]
- Improving science education: It’s not rocket science—it’s harder! [Physics Today]
- A seismometer maps Mars’s anatomy [Physics Today]
- Deep learning opens up protein science’s next frontiers [Physics Today]
- Tips for collaborating with scientists, from a philosopher [Nature]
- How to make your research reproducible [Nature]
- Asia’s Rising Scientists: Ian Vega [Asian Scientist]
- Dark Matter Alternative Passes Big Test [Physics]
- An Alternative to Dark Matter Passes Critical Test [Quanta]
- ‘If it’s alive, it sleeps.’ Brainless creatures shed light on why we slumber [Science]
- DeepMind’s AI helps untangle the mathematics of knots [Nature]
- China’s Mars rover has amassed reams of novel geological data [Nature]
- Webb telescope blasts off successfully — launching a new era in astronomy [Nature]
- ‘Killer’ immune cells still recognize Omicron variant [Nature]
- Tonga volcano eruption created puzzling ripples in Earth’s atmosphere [Nature]
- Philip Anderson: Virtuoso of condensed matter [Physics Today]
- Crisis in Particle Physics Forces a Rethink of What Is ‘Natural’ [Quanta]
- This scientist busts myths about how humans burn calories—and why [Science]
- Gender equality will enhance research around the world [Nature]
- Commentary: Is physics too specialized? [Physics Today]
- Machine Learning Reimagines the Building Blocks of Computing [Quanta]
- China’s first Moon rocks ignite research bonanza [Nature]
- Black hole at the centre of our Galaxy imaged for the first time [Nature]
- The First Picture of the Black Hole at the Milky Way's Heart Has Been Revealed [Scientific American]
- W-boson mass hints at physics beyond the standard model [Physics Today]
- How COVID has deepened inequality — in six stark graphics [Nature]
- Ancient DNA traces origin of Black Death [Nature]
- Long-awaited accelerator ready to explore origins of elements [Nature]
- These six countries are about to go to the Moon — here’s why [Nature]
- Physics and poetry [Physics Today]
- Further delays at ITER are certain, but their duration isn’t clear [Physics Today]
- Physics … is for girls? [Physics Today]
- Einstein would be doubly amazed [Physics Today]
- Particle physics isn’t going to die — even if the LHC finds no new particles [Nature]
- I wouldn’t be a scientist without my abortion [Nature]
- How AlphaFold can realize AI’s full potential in structural biology [Nature]
- ‘The entire protein universe’: AI predicts shape of nearly every known protein [Nature]
- Four revelations from the Webb telescope about distant galaxies [Nature]
- Showdown: Two huge neutrino detectors will vie to probe matter’s origins [Science]
- ‘Something is seriously wrong’: Room-temperature superconductivity study retracted [Science]
- Scientists are using AI to dream up revolutionary new proteins [Nature]