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X-WR-CALDESC:Events for INPA
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DTSTART:20160313T100000
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DTSTART:20161106T090000
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BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170804T120000
DTEND;TZID=America/Los_Angeles:20170804T130000
DTSTAMP:20260403T111106
CREATED:20170726T202804Z
LAST-MODIFIED:20170731T150329Z
UID:250-1501848000-1501851600@inpa.lbl.gov
SUMMARY:Yi-Kuan Chiang (Johns Hopkins) - Which Galactic dust map should I use? Insights from extragalactic tomography
DESCRIPTION:Over the past few years\, clustering-based redshift estimation has emerged as a new way to estimate redshifts and perform extragalactic tomography of arbitrary datasets. On a similar timescale\, observations by Planck\, WISE\, Pan-STARRS and 21cm radio surveys have been used to create a multitude of SFD-type Galactic dust maps. I will explain how clustering-based redshift estimation can be used to test the quality of the seven different dust maps currently available and I will show that extragalactic signatures can be revealed in many of them. When such maps are used for correcting optical magnitudes\, we therefore expect biases which are likely to affect the precision of cosmological experiments using supernovae\, BAOs\, or the growth of structures. I will present possible solutions to alleviate this issue and discuss which map should be used depending on which measurement one wishes to make.
URL:https://inpa.lbl.gov/event/yi-kuan-chiang-johns-hopkins/
LOCATION:INPA Common Room\, 50-5026
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170630T120000
DTEND;TZID=America/Los_Angeles:20170630T130000
DTSTAMP:20260403T111106
CREATED:20170629T224855Z
LAST-MODIFIED:20170629T224855Z
UID:246-1498824000-1498827600@inpa.lbl.gov
SUMMARY:Eddie Schlafly (LBNL) - Mapping the Galaxy's Dust in 3D
DESCRIPTION:The Milky Way’s dust is of basic importance in astronomy. It\nis both crucial to the formation of stars and is a pervasive\nobservational nuisance.  Despite the dust’s importance\, existing dust\nmaps are largely limited to two dimensions\, with the distance to the\ndust unknown.  The advent of large surveys like Pan-STARRS1 has\nallowed us to map dust in three dimensions in unprecedented detail. In\nthis talk\, I will describe how we use observations of stars in the\nMilky Way to map dust\, and I will discuss three major results: a\ncatalog of distances to major molecular clouds\, the discovery of a 100\npc ring of dust in Orion\, and the 3D dust map itself.  Upcoming\nsurveys promise continued scientific returns: Gaia\, DECam\, and LSST\nwill provide more precise and deeper data than ever before\, enabling\nunique maps of the Galaxy’s spiral structure and the study of the\ndust’s properties in 3D.
URL:https://inpa.lbl.gov/event/eddie-schlafly-lbnl-mapping-the-galaxys-dust-in-3d/
LOCATION:50A-5132- Sessler\, 50A-5132 Sessler Conference Room\, CA
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170623T120000
DTEND;TZID=America/Los_Angeles:20170623T130000
DTSTAMP:20260403T111106
CREATED:20170623T163213Z
LAST-MODIFIED:20170623T163538Z
UID:244-1498219200-1498222800@inpa.lbl.gov
SUMMARY:Samuel Hinton - Bayesian Hierarchical Methods for Supernova Cosmology
DESCRIPTION:In the era of precision cosmology\, systematic uncertainty is quickly becoming the limiting factor in modern cosmological analyses. In my work\, I discuss a method for performing supernova analyses by combining a hierarchical Bayesian framework with Monte-Carlo simulation realisations. This gains both the flexibility and speed of an analytic analysis along with the nuance and complexity of an algorithmic analysis\, allowing for a deeper and more complex analysis.
URL:https://inpa.lbl.gov/event/samuel-hinton-bayesian-hierarchical-methods-for-supernova-cosmology/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170609T120000
DTEND;TZID=America/Los_Angeles:20170609T130000
DTSTAMP:20260403T111106
CREATED:20170512T204117Z
LAST-MODIFIED:20170602T234202Z
UID:237-1497009600-1497013200@inpa.lbl.gov
SUMMARY:Giovanni Benato (LBNL) - Discovery probability of next-generation neutrinoless double-β decay experiments
DESCRIPTION:Neutrinoless double beta (0νββ) decay is the only process which can feasibly investigate the\nMajorana nature of neutrinos and total lepton number conservation.\nA broad international experimental program requiring considerable resources is being mounted to search for 0νββ decay in the region of parameter space allowed for Inverted Ordering.\nThe Bayesian discovery probability of future experiments searching for 0νββ decay is evaluated.\nA Bayesian global fit is performed to construct a probability distribution for the effective Majorana mass\, the observable of interest for these experiments. This probability distribution is then combined with the sensitivity of each experiment derived from a heuristic counting analysis. The discovery probability strongly depends on whether the neutrino mass ordering is normal or inverted\, and is found to be higher than previously considered for both mass orderings. In the absence of neutrino mass mechanisms that drive the lightest state or the effective Majorana mass to zero\, for the inverted ordering next-generation experiments are likely to observe a signal already during their first operational stages. Even for the normal ordering\, the probability of discovering neutrinoless double-β decay reaches ∼50% or more in the most promising experiments.
URL:https://inpa.lbl.gov/event/giovanni-benato-lbnl-discovery-potential-of-next-generation-neutrinoless-double-beta-decay-experiemnts/
LOCATION:50A-5132- Sessler\, 50A-5132 Sessler Conference Room\, CA
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170602T120000
DTEND;TZID=America/Los_Angeles:20170602T130000
DTSTAMP:20260403T111106
CREATED:20170329T170412Z
LAST-MODIFIED:20170503T162501Z
UID:214-1496404800-1496408400@inpa.lbl.gov
SUMMARY:Jose Ezquiaga (UAM) - Testing dark energy and gravity with the speed of gravitational waves
DESCRIPTION:LIGO’s gravitational waves (GWs) detection has inaugurated an era to test the foundations of gravity. This includes also probing the nature of Dark Energy. Theories explaining the present acceleration of the Universe beyond the cosmological constant typically require adding extra gravitational degrees of freedom. This can lead to distinct signatures in the propagation of GWs. I will review current tests of gravity over different scales and regimes\, and examine different frameworks describing dynamical dark energy. Then\, focusing on the case of only one additional degree of freedom\, I will present how the speed of GWs could be used to place severe constraints on generic scalar-tensor theories of gravity. I will describe under which circumstances an anomalous propagation speed can arise\, and how it could be measured in the near future. If there is a small deviation from the speed of light\, the delay between the GW and any electromagnetic counterpart will run beyond human time scales. Still\, this measurement could be achieved with LISA using eclipsing white dwarf binaries. This test will either eliminate many contender models for cosmic acceleration or wreck a fundamental pillar of general relativity.
URL:https://inpa.lbl.gov/event/jose-esquiaga-uam/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170526T120000
DTEND;TZID=America/Los_Angeles:20170526T130000
DTSTAMP:20260403T111106
CREATED:20170329T170324Z
LAST-MODIFIED:20170428T170154Z
UID:212-1495800000-1495803600@inpa.lbl.gov
SUMMARY:Titouan Lazeyras (MPA) - Dark matter halo bias from separate universe sim-ulations
DESCRIPTION:The large-scale local bias parameters of dark matter halos are essential to\ndescribe the statistics of halos and galaxies on large scales\, as well as for\nthe halo model of the matter distribution. Using so-called separate universe\nsimulations\, we recently obtained precise measurements of the three leading\nbias parameters. For b2 and b3\, these are the most precise measurements\nto date. We compare our results with bias parameters obtained from two\nand three points cross-correlation functions and with theoretical predictions\nfrom the excursion set peaks (ESP) model.\nUsing the same set of simulations\, we further investigate halo assembly bias\,\ni.e. the dependence of the halo bias on properties other than the halo mass.\nWe focus on four halo properties : halo concentration\, spin\, ellipticity and\nmass accretion rate. We measure assembly bias for b1 and nd good agree-\nment with previous studies. Furthermore\, we present results for assembly\nbias in b2 which are among the rst ones and most precise to date. To try\nand better understand the physical mechanisms behind assembly bias\, we\nalso look at the joint dependence of bias on two halo properties in addition\nto the mass.
URL:https://inpa.lbl.gov/event/titouan-lazeyras-mpa/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170519T120000
DTEND;TZID=America/Los_Angeles:20170519T130000
DTSTAMP:20260403T111106
CREATED:20170303T221941Z
LAST-MODIFIED:20170512T203955Z
UID:182-1495195200-1495198800@inpa.lbl.gov
SUMMARY:Jon Ouellet (MIT) - ABRACADABRA: A New Approach to the Search for Axion Dark Matter
DESCRIPTION:The evidence for the existence of Dark Matter is well supported by\nmany cosmological observations. But we have not yet been able to\ndetermine how this new type of matter fits into our understanding of\nthe Universe on the smallest scales. Separately\, long standing\nproblems within the Standard Model point to new weakly interacting\nparticles to help explain away unnatural fine-tunings. The axion was\noriginally proposed to explain the Strong-CP problem\, but was\nsubsequently shown to be a strong candidate for explaining the Dark\nMatter abundance of the Universe.  ABRACADABRA is a proposed\nexperiment to search for ultralight axion Dark Matter\, with a focus on\nthe mass range $10^{-14} \lesssim m_a \lesssim 10^{-6}$\\,eV. We search\nfor these axions and other axion like particles (ALPs) through a\nmodification to Maxwell’s equations\, which cause strong magnetic\nfields to source weak oscillating electrical currents parallel to the\nfield. These weak currents can be detected through the magnetic fields\nthat they generate. To see these\, ABRACADABRA will use highly\nsensitive SQUID magnetometers in a very low noise environment. At\nMIT\, we are building a 10\\,cm scale prototype that will quickly be\nsensitive to untested regions of parameter space. In the long term\, we\nhope to scale ABRACADABRA to a 1\\,m$^3$ scale detector\, which could be\nsensitive enough to probe the QCD axion scale.
URL:https://inpa.lbl.gov/event/jon-ouellet-mit-abracadabra/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170512T120000
DTEND;TZID=America/Los_Angeles:20170512T130000
DTSTAMP:20260403T111106
CREATED:20170329T170150Z
LAST-MODIFIED:20170501T155309Z
UID:210-1494590400-1494594000@inpa.lbl.gov
SUMMARY:Jessica Lu (UCB) - New Developments in Adaptive Optics: Wide Fields and Precise PSFs
DESCRIPTION:Adaptive optics correct for the blurring effects of the Earth’s atmosphere. However\, most AO systems today suffer from limited fields of view and point spread functions that vary over time and position. I will present results from several experiments to overcome these limitations. We have deployed a ground-layer adaptive optics experiment on the UH 2.2 m telescope on Maunakea to test the AO image quality over fields of view as large as 20 arcminutes. This experiment is a key first step in understanding whether a GLAO system would be feasible for other 8-10 m telescopes equipped with wide-field multi-object spectrographs. We are currently investigating the science feasibility of such a system for Keck. I will also present our efforts to reconstruct the AO point spread function and deliver more precise scientific measurements from Keck’s narrow-field AO system. Initial science applications include close binaries\, quasar host galaxies\, and the Galactic Center. Future cases include strongly lensed galaxies and supernovae\, black hole hunting with astrometric microlensing\, and direct imaging of exoplanets.
URL:https://inpa.lbl.gov/event/jessica-lu-ucb/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170505T120000
DTEND;TZID=America/Los_Angeles:20170505T130000
DTSTAMP:20260403T111106
CREATED:20170427T184346Z
LAST-MODIFIED:20170427T184346Z
UID:226-1493985600-1493989200@inpa.lbl.gov
SUMMARY:Daniel Dwyer (LBNL) - Evidence against sterile neutrinos from the Daya Bay Experiment
DESCRIPTION:Prevailing models of antineutrino emission by nuclear reactors do not\nagree with observations.  This discrepancy has been considered\npossible evidence for neutrino oscillation to non-interacting\, or\nsterile\, neutrino states.  Although the existence of sterile neutrinos\nwould have profound implications\, a variety of measurements by the\nDaya Bay Experiment disfavor sterile models.  I will summarize these\nobservations with a particular focus on the latest result: a precise\nmeasurement of the antineutrino flux versus reactor fuel burn-up.\nI’ll wrap up with a provocative question: does any compelling evidence\nfor sterile neutrinos remain?
URL:https://inpa.lbl.gov/event/daniel-dwyer-lbnl-evidence-against-sterile-neutrinos-from-the-daya-bay-experiment/
LOCATION:50A-5132- Sessler\, 50A-5132 Sessler Conference Room\, CA
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170428T120000
DTEND;TZID=America/Los_Angeles:20170428T130000
DTSTAMP:20260403T111106
CREATED:20170223T191556Z
LAST-MODIFIED:20230827T174001Z
UID:155-1493380800-1493384400@inpa.lbl.gov
SUMMARY:Javier Caravaca Rodriguez (UCB) -  Cherenkov and Scintillation light separation with the CHESS experiment
DESCRIPTION:The first step toward construction of a hybrid optical detector like THEIA is the demonstration of separation of scintillation and Cherenkov light in liquid scintillators (LS). This would allow reconstruction of particle directionality in a low energy threshold detector\, and provide improved particle identification. The CHESS experiment successfully images Cherenkov rings on LS such as LAB and LAB with PPO\, demonstrating this separation. Despite the relatively high light yield of the scintillation light with respect to the Cherenkov light\, the latter is successfully identified thanks to the characteristic prompt emission time of a few picoseconds\, as oppose to the typical nanoseconds delays of the scintillation emission. Low time jitter PMTs ($\sim300ps$) and fast digitization ($5GHz$) provides a precision well below the nanosecond level\, making the time separation possible. Recent results obtained with pure LS and preliminary studies for newly developed water-based LS materials will be presented.
URL:https://inpa.lbl.gov/event/javier-caravaca-robriguez/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170421T120000
DTEND;TZID=America/Los_Angeles:20170421T130000
DTSTAMP:20260403T111106
CREATED:20170303T221606Z
LAST-MODIFIED:20170306T224158Z
UID:180-1492776000-1492779600@inpa.lbl.gov
SUMMARY:Ken Chen (NAOJ) - Lighting up the Universe with Extreme Supernovae
DESCRIPTION:Recent all-sky transient searches have discovered new and unexpected explosion types that fall outside traditional SN classification schemes. These exotic outliers in many cases are due to the deaths of massive stars and therefore may have been prevalent in the primordial universe because the Pop III IMF is thought to be top-heavy. Depending on the mass of the progenitor\, these outliers may be faint\, magnetar-powered\, pair-instability\, or general relativistic instability SNe\, all of which have unique observational signatures. Some of these events are superluminous\, 10-100 times brighter than normal supernovae\, and may produce energetic UV\, X-ray\, or gamma-ray bursts. Their extreme luminosities enable their detection at z > 10 and they are ideal probes of the primordial universe at cosmic dawn\, prior to the advent of the first galaxies. Here\, we examine these exotic explosions with state of the art 3D radiation-hydro simulations that bridge all spatial scales from the central engine to breakout into the IGM\, where observational signatures can be computed. We discuss the coevolution of radiation and turbulent mixing in SN ejecta and present realistic light curves for these explosions for JWST and the coming generation of extremely large telescopes (ELTs). Detection rates for Pop III SNe can place useful constraints on the primordial IMF\, and their nucleosynthetic yields can be used to study the chemical compositions of extreme metal poor stars.
URL:https://inpa.lbl.gov/event/ken-chen-naoj/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170414T120000
DTEND;TZID=America/Los_Angeles:20170414T130000
DTSTAMP:20260403T111106
CREATED:20170329T165949Z
LAST-MODIFIED:20170410T161458Z
UID:208-1492171200-1492174800@inpa.lbl.gov
SUMMARY:Samuel Flender (ANL) - Cosmology and the Sunyaev-Zel’dovich sky: Observations and simulations
DESCRIPTION:The Sunyaev-Zel’dovich (SZ) effect is an important observational signature of galaxy clusters\, the largest objects in the Universe today. In particular\, the pairwise kinematic SZ signal probes the matter-velocity correlation function\, scaled by the average optical depth of galaxy clusters\, and is thus an interesting probe both from a cosmological and astrophysical point of view. In this talk\, I will give an overview about our current cosmological understanding\, highlighting the role of the SZ effect. I will present the current landscape of kinematic SZ measurements\, including a recent measurement by the South Pole Telescope collaboration and the Dark Energy Survey collaboration\, as well as insights from new\, state-of-the-art simulations\, and recent progress in the modeling of gas profiles of galaxy clusters.
URL:https://inpa.lbl.gov/event/samuel-flender-anl-cmb-and-large-structures/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170407T120000
DTEND;TZID=America/Los_Angeles:20170407T130000
DTSTAMP:20260403T111106
CREATED:20170221T225206Z
LAST-MODIFIED:20170405T203941Z
UID:151-1491566400-1491570000@inpa.lbl.gov
SUMMARY:Pierre Sokolsky (Utah) - Ultra-High Energy Cosmic Rays: Complex Spectral Structure and Evidence for  Anisotropy in the Northern Sky
DESCRIPTION:We present recent results from the Telescope Array (TA) collaboration on the spectrum and anisotropy of cosmic rays from 1015 to 1020 eV. The simple power law spectrum thought to be exhibited by cosmic rays is now known to be considerably more complex\, with at least four features present in this energy region in addition to the spectral cut-off at 5×1019 eV. The evidence for these structures and their possible origin will be discussed. At the highest energies\, a clustering of events ( a “hot spot”)  is observed in the neighborhood of Ursa Major with a 3.4 to 4.0 sigma significance ( depending on methodology). If confirmed\, this would be the first significant observation of a ultra-high energy cosmic ray source. The “hot spot” is consistent with originating from M82\, a nearby starburst galaxy.
URL:https://inpa.lbl.gov/event/pierre-sokolsky-utah/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170324T120000
DTEND;TZID=America/Los_Angeles:20170324T130000
DTSTAMP:20260403T111106
CREATED:20170221T225101Z
LAST-MODIFIED:20170322T150124Z
UID:149-1490356800-1490360400@inpa.lbl.gov
SUMMARY:Bradford Welliver (LBNL) - Results and Current Status of the SuperCDMS Soudan Experiment
DESCRIPTION:The SuperCDMS experiment is a dark matter search that utilizes an array of 15 patterned Ge crystals\, called iZIPs with a total mass of 9kg. SuperCDMS has completed operations at the Soudan Underground Laboratory and reported results on low-mass (M  10 GeV/c^2) WIMP search analysis with 1700 kg-days of exposure using 10 of the iZIP detectors is nearing completion. This talk will present an overview of the SuperCDMS detector technology\, recap the low-mass search results and discuss the analysis strategy and status of the high mass WIMP search.
URL:https://inpa.lbl.gov/event/bradford-welliver-lbnl/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170317T120000
DTEND;TZID=America/Los_Angeles:20170317T130000
DTSTAMP:20260403T111106
CREATED:20170221T224938Z
LAST-MODIFIED:20170303T212649Z
UID:147-1489752000-1489755600@inpa.lbl.gov
SUMMARY:Jessie Muir (Michigan) - Unbiasing cosmology on the largest scales
DESCRIPTION:One of the most exciting areas of research in cosmology is the effort to extract information about fundamental physics from observations of the universe on large scales.  With the advent of increasingly large cosmological datasets (and correspondingly small statistical uncertainties)\, future progress in the field will fundamentally be determined by our ability to understand and account for systematic errors. In this talk\, I’ll discuss two projects which further that ability: a study of how reliably we can separate primordial and late-time contributions to large-angle features of the the Cosmic Microwave Background (CMB) and the development of a blinding strategy to prevent experimenters’ bias from influencing the Dark Energy Survey’s cosmological analysis.
URL:https://inpa.lbl.gov/event/jessie-muir-michigan/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170313T120000
DTEND;TZID=America/Los_Angeles:20170313T130000
DTSTAMP:20260403T111106
CREATED:20170221T224826Z
LAST-MODIFIED:20170303T221149Z
UID:145-1489406400-1489410000@inpa.lbl.gov
SUMMARY:Quentin Riffard - Direct detection of dark matter with the DarkSide program
DESCRIPTION:A large number of astrophysical and cosmological observations at different scales supports the existence of a cold dark matter component in the Universe. At the Universe scale\, this component is uniformly distributed and represents roughly 26% of the total mass-energy density of the Universe. The Weakly Interacting Massive Particle (WIMP)\, a generic particle\, is one of the leading dark matter particle candidates: a massive particle interacting only through weak and gravitational interactions. This candidate is supported by the so-called “WIMP miracle” and could also be supported in particle physics by supersymmetric models. At the Milky Way scale\, dark matter forms a static halo surrounding our galaxy. The relative motion of the solar system through the dark halo produces a flux of WIMP on Earth. Through the weak interaction\, WIMP could interact with ordinary matter producing nuclear recoils (NR) by elastic scattering. In the last two decades\, a large experimental effort has been deployed by international collaborations in order to probe a direct detection of NR from WIMP-nucleus interactions. In this experimental context\, multi-tone noble liquid TPC are good candidate for the dark matter searches. The DarkSide program is a step approach program aiming to build a large TPC filled with liquid argon (LAr). The first part of this presentation focuses on the potential of LAr as a target for dark matter searches\, on the latest results from the DS-50 detector and the perspectives of the DarkSide program: the DS-20k detector. For a complete understanding of LAr data\, the characterisation of several parameters is fundamental such as the scintillation efficiency for NR and the pulse-shape parameter for the NR/ER discrimination is fundamental. In order to improve the knowledge on these parameters\, the ARIS collaboration built a small LAr double-phase TPC. A first data taking with mono chromatic neutrons was performed in Orsay (France) in last October. The second part of this presentation presents a status of the ARIS data analysis and a discussion of the strategy to extract the parameters.
URL:https://inpa.lbl.gov/event/quentin-riffard/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170310T120000
DTEND;TZID=America/Los_Angeles:20170310T130000
DTSTAMP:20260403T111106
CREATED:20170203T190600Z
LAST-MODIFIED:20170301T171356Z
UID:129-1489147200-1489150800@inpa.lbl.gov
SUMMARY:Sandra Miarecki  - Earth vs. Neutrinos: first measurements of neutrino absorption in the Earth and the muon neutrino-to-nucleon cross section above 1 TeV with the IceCube Detector
DESCRIPTION:Bio: \nSandy Miarecki is a retired Air Force test pilot\, PhD graduate of the University of California-Berkeley\, and an affiliate member of LBL after completing her dissertation research at LBL.  She is currently an assistant professor of physics at the US Air Force Academy in Colorado Springs. \nThe IceCube Detector at the South Pole was constructed to measure the flux of high-energy neutrinos and to try to identify their cosmic sources. In addition to these astrophysical neutrinos\, IceCube also detects the neutrinos that result from cosmic ray interactions with the atmosphere. These atmospheric neutrinos can be used to measure the total muon neutrino-to-nucleon cross section by measuring neutrino absorption in the Earth for the first time. The measurement involves isolating a sample of 10\,784 Earth-transiting muons detected by IceCube in its 79-string configuration. The cross-section is determined using a two-dimensional fit in measured muon energy and zenith angle and is presented as a multiple of the Standard Model expectation as calculated by Cooper-Sarkar\, Mertsch\, and Sarkar in 2011. A multiple of 1.0 would indicate agreement with the Standard Model. The results of this analysis find the multiple to be 1.30 (+0.21 -0.19 statistical) (+0.40 -0.44 systematic) for the neutrino energy range of 6.3 to 980 TeV\, which is in agreement with the Standard Model expectation.
URL:https://inpa.lbl.gov/event/raul-hennings-yeomans-ucb-tentative/
LOCATION:50A-5132- Sessler\, 50A-5132 Sessler Conference Room\, CA
ORGANIZER;CN="Kawana Yancey":MAILTO:kyancey@lbl.gov
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170303T120000
DTEND;TZID=America/Los_Angeles:20170303T130000
DTSTAMP:20260403T111106
CREATED:20170221T191333Z
LAST-MODIFIED:20170303T164338Z
UID:140-1488542400-1488546000@inpa.lbl.gov
SUMMARY:Martina Gerbino (NORDITA) - Three Neutrinos in Cosmology (to Say Nothing of Laboratory)
DESCRIPTION:Neutrinos are the only standard model particles of unknown mass. Thus\, measuring their mass is one of the leading goals in fundamental physics. Cosmology currently provides the tightest bounds on the sum of the neutrino masses and the possibility that next generation experiments can provide a detection looks promising. Then\, further questions would have to be addressed\, such as the neutrino hierarchy and the neutrino nature. In this talk\, I will discuss the treasure trove of information about massive neutrinos that we can collect from different cosmological probes. I will stress the importance of extending our interest to laboratory searches\, such as kinematic measurements and neutrino less double-beta decay experiments\, for going beyond measuring the neutrino mass. Finally\, I will choose a different angle and show how massive neutrino unknowns can affect the constraints on inflationary models.
URL:https://inpa.lbl.gov/event/martina-gerbino-nordita/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170227T120000
DTEND;TZID=America/Los_Angeles:20170227T130000
DTSTAMP:20260403T111106
CREATED:20170223T191211Z
LAST-MODIFIED:20170224T202525Z
UID:153-1488196800-1488200400@inpa.lbl.gov
SUMMARY:Lauren Ice (ASU) - Measurement of the Two-Photon Exchange Contribution to Elastic Lepton-Proton Scattering with the OLYMPUS Experiment
DESCRIPTION:The OLYMPUS experiment measured the two-photon exchange contribution to elastic electron-proton scattering\, which is thought to be the most likely candidate to resolve the discrepancy observed between polarized and unpolarized measurements of the proton electric-to-magnetic form factor ratio. To deterimine the two-photon exchange contribtuion\, OLYMPUS measured the positron-proton to electron-proton elastic scattering cross section ratio over a wide range of four-momentum transfer from 0.6 < Q2 < 2.2 (GeV/c)2 and virtual photon polarizaton from 0.456 <  < 0.978. The two-photon exchange contribution is correlated to the deviation of the cross section ratio from unity. \nIn 2012\, the OLYMPUS experiment collected over 4 fb−1 of e+p and e−p scatter-ing data using electron and positron beams incident on a hydrogen gas target. The scattered leptons and protons were measured exclusively with a large acceptance spec-\ntrometer. OLYMPUS observed a slight rise in σe+p/σe−p of at most 1-2% over the Q2 range. This talk will discuss the motivations\, experiment\, analysis method\, and the preliminary results for the cross section ratio as measured by OLYMPUS.
URL:https://inpa.lbl.gov/event/lauren-ice/
LOCATION:50B-4205
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170224T120000
DTEND;TZID=America/Los_Angeles:20170224T130000
DTSTAMP:20260403T111106
CREATED:20170221T191141Z
LAST-MODIFIED:20170221T191141Z
UID:138-1487937600-1487941200@inpa.lbl.gov
SUMMARY:Raul Hennings Yeomans (UCB)
DESCRIPTION:Recent progress on the next generation double beta decay experiment with low-temperature macro-calorimeters (CUPID)\nThe Cuore Upgrade with Particle IDentification\, or CUPID\, is a proposed next generation double-beta decay experiment that requires a low-threshold optical photon light detector. The use of a secondary bolometer as a light detector is being investigated since\, $\alpha$-particles (the main background of CUORE-0) could be tagged by comparing the heat and light signals for each event\, given that the two betas from a neutrinoless double beta event would produce both heat and light (Cherenkov light in the case of TeO$_2$) while $\alpha$ events would produce only heat in the absorber. A baseline resolution of at least 20~eV is required in order to achieve a rejection factor of 99.9\% of the $\alpha$ background. I will review latest progress on CUPID\, particularly the development of low-Tc superconducting Transition Edge Sensor technology.
URL:https://inpa.lbl.gov/event/raul-hennings-yeomans-ucb/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170217T120000
DTEND;TZID=America/Los_Angeles:20170217T130000
DTSTAMP:20260403T111106
CREATED:20170203T185508Z
LAST-MODIFIED:20170224T202654Z
UID:127-1487332800-1487336400@inpa.lbl.gov
SUMMARY:Scott Daniel (University of Washington) - Deterministic \chi^2 Exploration to Find Credible Limits Faster than by Bayesian Sampling
DESCRIPTION:Once data has been collected\, it is desirable to be able to quickly transform that data into statements about the values and corresponding uncertainties — the “confidence limits” or “credible limits” — of the physical parameters underlying the data.  Traditionally\, this problem is treated probabilistically. This process can be time consuming\, as enough samples need to be drawn that the distribution of samples converges to the Bayesian posterior distribution of the likelihood in parameter space.  We propose an alternative scheme based on the likelihood ratio test\, minimizing a cost function that incentivizes exploration of parameter space points within the credible limit but far from previously explored points.  Testing on toy likelihood functions with realistic non-Gaussian properties\, we find that this scheme converges to the same credible limit as the usual Bayesian methods but requires an order of magnitude fewer evaluations of the likelihood function.  Our code is publically available over GitHub.
URL:https://inpa.lbl.gov/event/speaker-scott-daniel-from-university-of-washington/
LOCATION:50A-5132- Sessler\, 50A-5132 Sessler Conference Room\, CA
ORGANIZER;CN="Kawana Yancey":MAILTO:kyancey@lbl.gov
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170203T120000
DTEND;TZID=America/Los_Angeles:20170203T130000
DTSTAMP:20260403T111106
CREATED:20170127T214351Z
LAST-MODIFIED:20170127T214613Z
UID:122-1486123200-1486126800@inpa.lbl.gov
SUMMARY:Benjamin Schmidt (LBNL) - CUORE Commissioning
DESCRIPTION:
URL:https://inpa.lbl.gov/event/cuore-commissioning/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170120T120000
DTEND;TZID=America/Los_Angeles:20170120T130000
DTSTAMP:20260403T111106
CREATED:20170112T221628Z
LAST-MODIFIED:20170117T182607Z
UID:95-1484913600-1484917200@inpa.lbl.gov
SUMMARY:Marcelo Alvarez -Simulating Large Scale Structure Observables from Reionization to the Present
DESCRIPTION:The next generation of large scale structure surveys will map out the universe in unprecedented detail. Transformative techniques in computational astrophysics are emerging as the optimal ways to extract information from these surveys\, with realistic and routine full sky simulations finally within reach. I will describe a new pipeline for efficiently simulating high resolution maps of the sky from the radio to x-ray and from reionization to the present. I will conclude with what questions are likely to be answered in the next decade.
URL:https://inpa.lbl.gov/event/mohammadjavad-vakili-nyu-topic-tba/
LOCATION:50A-5132- Sessler\, 50A-5132 Sessler Conference Room\, CA
ORGANIZER;CN="Kawana Yancey":MAILTO:kyancey@lbl.gov
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20170113T120000
DTEND;TZID=America/Los_Angeles:20170113T130000
DTSTAMP:20260403T111106
CREATED:20170112T222843Z
LAST-MODIFIED:20170224T202417Z
UID:100-1484308800-1484312400@inpa.lbl.gov
SUMMARY:Initial results from the Majorana Demonstrator - By Alan Poon - LBNL
DESCRIPTION:Neutrinoless double-beta decay experiments play a major role in the search for lepton number violation and the Majorana nature of the neutrino mass. The MAJORANA Collaboration has assembled two modules of high-purity Ge detectors to search for neutrinoless double-beta decay in 76-Ge at the Sanford Underground Research Facility in Lead\, South Dakota. One of the primary goals of the MAJORANA DEMONSTRATOR (MJD) is to establish the required background and scalability of a Ge-based\, next-generation\, tonne-scale experiment. Commissioning of MJD started in 2015 and its two detector modules are taking data. I will discuss the initial results on the search for neutrinoless double-beta decays and dark matter from the commissioning run and the first physics run of Module 1.
URL:https://inpa.lbl.gov/event/initial-results-from-the-majorana-demonstrator-by-alan-poon-lbnl/
LOCATION:50A-5132- Sessler\, 50A-5132 Sessler Conference Room\, CA
ORGANIZER;CN="Kawana Yancey":MAILTO:kyancey@lbl.gov
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20161216T120000
DTEND;TZID=America/Los_Angeles:20161216T130000
DTSTAMP:20260403T111106
CREATED:20161214T211248Z
LAST-MODIFIED:20161214T211248Z
UID:57-1481889600-1481893200@inpa.lbl.gov
SUMMARY:Alex Lowell (USB/SSL) - TBA
DESCRIPTION:
URL:https://inpa.lbl.gov/event/alex-lowell-usbssl-tba/
LOCATION:INPA Common Room\, 50-5026
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20161209T120000
DTEND;TZID=America/Los_Angeles:20161209T130000
DTSTAMP:20260403T111106
CREATED:20161214T205410Z
LAST-MODIFIED:20161214T210521Z
UID:54-1481284800-1481288400@inpa.lbl.gov
SUMMARY:Probing Dark Matter with Radio Surveys
DESCRIPTION:Julian Munoz \n Probing Dark Matter with Radio Surveys  \n A significant part of dark matter could be compact\, in particular in the form of primordial black holes. I will review the signatures of primordial black holes\, both in the form of gravitational-wave events and as gravitational lenses of fast radio bursts. Alternatively\, a WIMP-y dark-matter component could interact with baryons. I will explain how these interactions cause heating of the baryons\, becoming observable in the 21-cm line prior to the epoch of reionization.
URL:https://inpa.lbl.gov/event/probing-dark-matter-with-radio-surveys/
LOCATION:INPA Common Room\, 50-5026
END:VEVENT
END:VCALENDAR