Speakers bureau talks list

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Speakers Bureau

Proposed talks

Announced Date Venue Speaker Title/Topic Abstract Slides
14 Sep 2019 16-19 Dec 2019 B-modes from space, Garching Benjamin Schmitt Project Design and Development Update for the BICEP Array and CMB Stage 4 Small Aperture Telescope Programs Measurement of the polarized Cosmic Microwave Background (CMB) over the past few decades has enabled precision probes of the evolutionary history, composition, and dynamics of the primordial Universe. Next-generation CMB experiments will extend this scientific reach, notably allowing for tests of the inflationary theory of the early Universe, driven through constraints on the tensor-scalar ratio "r" via the search for primordial B-mode polarization. The BICEP Array telescope program will target observation of B-modes at large angular scales, building on constraints already placed by the BICEP/Keck program. BICEP Array is a CMB "Stage 3" class instrument and comprises four BICEP3-class receivers which will operate in conjunction with BICEP3 at 30/40, 95, 150, and 220/270 GHz. The 30/40 GHz receiver will be deployed to the Amundsen-Scott South Pole Station during the 2019/2020 Austral summer. With all receivers deployed, BICEP Array will measure primordial gravitational waves to a precision of σ(r) between 0.002 and 0.004 after a full three years of observations, with over 30,000 detectors on the sky. The BICEP Array experiment will, along with several other CMB telescopes currently in development, serve as a pathfinder experiment for the next-generation of CMB polarization experiments, called CMB "Stage 4" (CMB-S4). The CMB-S4 program is set to lead the global development of next-generation CMB telescope platforms over the next decade, and will lead a worldwide effort to probe the CMB temperature and polarization with unprecedented precision. CMB-S4 will deploy several new large aperture telescopes and approximately eighteen new small aperture telescopes (0.5m class refracting telescopes currently in development) across sites in the Atacama Desert of Northern Chile and the South Pole. With its enormous increase in sensitivity, CMB-S4 will cross critical thresholds for testing inflation, as well as advancing a range of broader science goals. In this talk, I will provide an overview of the current status of the design, integration, and deployment of the first BICEP Array receiver, as well as a summary of the technology development profile for the CMB-S4 small aperture telescope program. Media:myslides.pdf



Approved talks

Announced Date Venue Speaker Title/Topic Abstract Slides


31 July 2019 15-20 Dec 2019 Texas Symposium on Relativistic Astrophysics Levon Pogosian Expected CMB-S4 constraints on birefringence and primordial magnetic fields Media:myslides.pdf
31 July 2019 11-17 Aug 2019 Rencontres du Vietnam Cosmology Benjamin Saliwanchik Cosmology with the Highly Redshifted 21cm Line (Can tie in CMB cross-correlations into talk, and give CMB-S4 a mention) Media:myslides.pdf




11-17 Aug 2019 Rencontres du Vietnam Cosmology Francois Bouchet Invited talk on current cmb status/planck, prospects for CMB-S4 Media:myslides.pdf


23-27 Sep 2019 Italian Physics Society Maurizio Tomasi Status and prospects for CMB (Will dedicate a few slides to CMB-S4) Media:myslides.pdf


Past talks

Date Venue Speaker Title/Topic Abstract Slides
6-8 August 2019 12th Great Lakes Cosmology Workshop Tom Crawford Current and Upcoming Ground-based Cosmic Microwave Background Experiments Observations of the cosmic microwave background (CMB) form the backbone of our understanding of the formation and evolution of the Universe. In this talk, I will review the state of the field of post-Planck ground-based CMB observations, discuss some of the most exciting science that can be explored with current and upcoming ground-based CMB experiments, and introduce some of the experiments being designed and fielded to pursue those scientific goals. Media:Crawford glcw 2019.pdf


13-16 April 2019 APS April Meeting, Devner Nils Halverson 12 minutes on CMB-S4 CMB-S4 is a next-generation ground-based cosmic microwave

background (CMB) experiment consisting of dedicated telescopes equipped with highly sensitive superconducting cameras operating at multiple sites. CMB-S4 will provide a dramatic leap forward in our understanding of the fundamental nature of space and time and the evolution of the Universe. The science goals of CMB-S4 include illuminating cosmic inflation, measuring the sum of neutrino masses, searching for relativistic relics in the early universe, characterizing dark energy and dark matter, and mapping the matter distribution in the universe. These goals require measurements with unprecedented sensitivity and control of systematic errors. To address this challenge, the CMB community has come together to advocate a single comprehensive “Stage-4” experiment, called CMB-S4, which has been endorsed by the 2014 report of the Particle Physics Project Prioritization Panel (P5) “Building for Discovery,” and the 2015 NAS/NRC report "A Strategic Vision for NSF Investments in Antarctic and Southern Ocean Research."

Media:CMB-S4_talk_APS_CMB_MiniSymposium_2019-04-15v2.pptx


7 January 2019 AAS 223, Seattle Marius Millea CMB-S4 constraints on neutrinos and neutrino like particles [[1]]
7 January 2019 AAS 223, Seattle Aurelien Fraisse CMB Facilities and Instruments in the 2020s, and Beyond A new generation of extremely sensitive experiments will extend precision measurements of the Cosmic Microwave Background (CMB) anisotropies on large angular scales in polarization, and on arcminute scales in intensity and polarization. The complementary capabilities of ground-based, orbital and sub-orbital balloon borne observatories will provide surveys of the polarized mm-wave sky of with unprecedented sensitivity, fidelity, and spectral resolution, enabling an improved understanding of Galactic emission necessary to realize the scientific potential of the CMB. In this talk we will briefly describe the observational programs underway in the coming decade. Media:AAS_Fraisse.pdf Media:AAS_Fraisse.key


7 January 2019 AAS 223, Seattle Emmanuel Schaan Growth of structure from joint analyses of cosmic microwave background and large-scale structure data I will describe CMB lensing measurements from current and upcoming CMB experiments. In combination with large-scale structure observables such as clustering and lensing, these will probe the growth of structure over a wide range of redshifts, thus constraining the properties of dark energy and the neutrino masses. Furthermore, CMB lensing measurements can help reduce large-scale structure systematics, such as shear calibration in galaxy lensing. [[2]]


7 January 2019 AAS 223, Seattle Lindsey Bleem The SZ Galaxy Cluster Sample and other Legacy Products from the CMB-S4 Experiment The next generation CMB-S4 experiment will conduct a multifrequency (40-270 GHz) survey of ~40% of the sky at an unprecedented combination of depth and resolution, reaching depths of a few uK-arcmin (~100s uJy) at arcmin-scale resolution in the higher frequency channels. These data will be a tremendous resource for the astronomical community: the deep multifrequency maps will enable the identification of a mass-limited sample of >100,000 galaxy clusters via the Sunyaev-Zel’dovich (SZ) effect, a significant number of higher-redshift protoclusters, galactic sources, and over a million active galactic nuclei (AGN) and dusty star-forming galaxies. Beyond these catalogs the individual frequency maps will be combined to produce maps of the matter distribution as traced by gravitational lensing of the cosmic microwave background, hot gas traced via the thermal SZ, galactic dust, and the cosmic infrared background. The observing cadence will also enable time domain science; each location in the footprint will be imaged more than 1000 times over the course of the multiyear survey enabling characterization of near earth objects, AGN lightcurves, and the discovery of transient objects. In this presentation I will highlight these legacy products, particularly focusing on the scientific impact of the new SZ galaxy cluster sample. [[3]], [[4]]
7 January 2019 AAS 223, Seattle Colin Hill Constraining Feedback in Galaxy Formation with Next-Generation CMB Experiments The cosmic microwave background (CMB) radiation is a powerful backlight with which to illuminate structure throughout cosmic history. The thermal (tSZ) and kinematic Sunyaev-Zel'dovich (kSZ) effects, sourced by the scattering of CMB photons off free electrons, directly probe the thermal pressure and density of ionized gas, while gravitational lensing of the CMB directly measures the line-of-sight matter density. Measurements of these effects, which have only been robustly detected within the past decade, will transform our understanding of galaxy formation and evolution in upcoming CMB surveys. I will present predictions for the tSZ and kSZ signals of galaxy and cluster populations at various redshifts derived from state-of-the-art cosmological hydrodynamics simulations, with differing implementations of sub-grid feedback physics due to active galactic nuclei and supernovae. While multiple feedback implementations are able to reproduce the stellar properties of galaxies, their predictions for the tSZ and kSZ signals can be distinguished at high significance by upcoming experiments, including CMB-S4. Next-generation CMB surveys will thus provide crucial input to our understanding of galaxy formation, particularly at high redshift, where other probes have limited signal-to-noise. I will conclude by discussing implications of these measurements for the modeling of baryonic effects on the matter power spectrum, which is amongst the largest systematic uncertainties in cosmological constraints derived from weak gravitational lensing data. [[5]]
7 January 2019 AAS 223, Seattle Colin Bischoff The search for primordial gravitational waves with CMB polarization Observations of Cosmic Microwave Background B-mode polarization at large angular scales are a uniquely powerful method to search for primordial gravitational waves, such as those predicted by theories of inflation. A major milestone would be to either detect this signature of gravitational waves or else to set an upper limit on the tensor-to-scalar ratio, r < 0.001, which would rule out the most compelling models of large-field inflation. This goal will be met by Stage-3 experiments currently coming online, the CMB Stage-4 project planned for next decade, as well as new balloon-borne and satellite telescopes. Galactic foregrounds and gravitational lensing of E-mode polarization pose major challenges for these measurements, but are already being addressed by current projects. I will discuss the goals and common design features of experiments targeting the primordial gravitational wave signal, as well as forecasts developed for CMB Stage-4. Media:20190107_bischoff_aas.pdf
29 November - 1 December 2018 Novel Instrumentation for Fundamental Physics Workshop, Puerto Rico

https://indico.cern.ch/event/748721/

Clarence Chang Update on the ongoing activities Media:Chang_COFI_2018.pdf


22-24 September 2018 International Symposium on Cosmology and Ali CMB Polarization Telescope, Shanghai

https://indico.leeinst.sjtu.edu.cn/event/44/overview

Peter Timbie CMB-S4 overview and a general discussion of detector development [[Media:]]


15-18 October 2018 CMB Foregrounds, Tenerife

http://www.iac.es/congreso/cmbforegrounds18/

Julian Borrill CMB-S4 overview Media:tenerife_cmbs4.pdf
4-9 November 2018 8th KIAS Workshop on Cosmology and Structure Formation

http://home.kias.re.kr/cosmology2018/

Francois Bouchet CMB-S4 overview [[Media:]]




Recontres Du Vietnam Raphael Flauger Plenary talk, including CMB-S4 [[Media:]]
14-21 July, 2018 COSPAR, Pasadena John Carlstrom The Next Generation Ground-Based Cosmic Microwave Background Experiment, CMB-S4

Measurements of the CMB have driven our understanding of the universe and the physics that govern its evolution from primordial quantum fluctuations to its present state. They provide the foundation for the remarkable 6-parameter cosmological model, ΛCDM, which fits all cosmological data, although there are some tensions that may possibly hint at new physics. Far from being the last word in cosmology, the model raises deep questions: Is Inflation correct? What is its energy scale? What is the dark matter? What is the nature of dark energy? Are there light sterile neutrinos, or other light relics? This talk will describe progress on the next generation ground-based CMB experiment, CMB-S4, that is being designed to have sufficient sensitivity and control of systematics to make breakthroughs in many of these areas, i.e., to cross critical thresholds in parameter values or show that ΛCDM is incomplete.

Media:E1-2-0023-18-Carlstrom-Posted.pdf



4-11 July 2018 ICHEP 2018, Seoul Masashi Hazumi Plenary talk on CMB cosmology Media:myslides.pdf



1 Jun 2018 1-7 July 2018 Marcel Grossman Meeting Carlo Baccigalupi The Status of the CMB Stage IV Experiment Abstract: The 'Stage-4' ground-based cosmic microwave background (CMB) experiment, CMB-S4, consists of dedicated telescopes equipped with highly sensitive superconducting cameras operating at the South Pole, the high Chilean Atacama plateau, and possibly northern hemisphere sites. CMB-S4 will be designed to cross critical thresholds in testing inflation, determining the number and masses of the neutrinos, constraining possible new light relic particles, providing precise constraints on the nature of dark energy, and testing general relativity on large scales. In this contribution, we review the status of the project. Media:Carlo_Baccigalupi_S4_MGM15.pdf

Media:Carlo_Baccigalupi_S4_MGM15.odp



19 Jun 2018 POLAR2018 John Carlstrom Status and Future of Cosmic Microwave Background Measurements from Antarctica Media:E1-2-0023-18-Carlstrom-Posted.pdf


17-22 June 2018 Workshop: WHIM and Cluster Outskirts: Lost and Found Baryons in the Local Universe, UA-Huntsville Jim Bartlett Gas Feedback Media:myslides.pdf


25 May 2018 04-08 Jun 2018 PASCO, Case Western John Ruhl Plenary talk on CMB-S4 Media:ruhl_pascos_final.pdf

Media:Ruhl_pascos_final.key



15 April 2018 AAS Brad Benson CMB-S4 excerpt from "The Hubble Constant from the Cosmic Microwave Background" media:2018_04_15_Benson_CMB_Hubble_CMBS4_slides.pdf


17-24 March 2018 Rencontres de Moriond: Cosmology Victor Buza CMB-S4 Performance-Based Constraints On Primordial Gravitational Waves

The next-generation ground-based cosmic microwave background experiment, CMB-S4, will achieve new thresholds in the search for the B-mode polarization signature of primordial gravitational waves. To quantify these thresholds, as well as to propose an informed experimental configuration that will reach them, the CMB-S4 forecasting working group has developed a Fisher forecasting machinery targeted towards optimizing tensor-to-scalar parameter constraints in the presence of galactic foregrounds and gravitational lensing of the CMB. In this talk I will describe this framework and explain the uniqueness of this particular approach in basing the forecasts on scalings from actual analyses and multi-year achieved performances of the currently deployed BICEP/Keck series of experiments. In addition, I will detail our work on developing map-level noise simulations, and using various sky models, models of instrumental systematics, and analysis methods to explore the robustness of our findings, which most recently appeared in the CMB-S4 CDT report. Finally, I will talk about employing the Fisher framework in tandem with the simulations work to arrive at the currently proposed CMB-S4 strawman configuration.

Media:Moriond2018_Buza.pdf


22 Jan 2018 18-23 March 2018 Snowcluster Nick Battaglia On Cluster Profiles with CMB-S4

The next generation cosmic microwave background (CMB) experiment, CMB-S4, will make unprecedented measurements of secondary anisotropies in the CMB. I will focus on observations of the thermal and kinetic Sunyaev-Zel’dovich (SZ) effects, which will provide new windows into the thermodynamic properties of galaxy groups and clusters. I will show how we can constrain important baryonic processes, like feedback, that govern group and cluster formation through the high fidelity SZ profile measurements from CMB-S4. Additionally, I will describe the prospects to constrain fundamental physics from SZ observations and how to mitigate the modeling uncertainties associated with the baryonic processes that currently limit these constraints.

Media:Battaglia_Snowcluster_2018.pdf

Media:Battaglia_Snowcluster_2018.key


31 Jan 2018 CMB in Germany John Carlstrom CMB-S4 update [[Media:]]
2 Aug 2017 NRAO Futures 2017 Zeesh Ahmed File:AhmedFutures2017CMB-S4.pdf
6 Jan 2017 B modes from space workshop Lloyd Knox CMB-S4 update [[Media:]]


2 Mar 2017 SLAC Colloquium Suzanne Staggs Update following Feb 2017 CMB-S4 meeting File:CMB-and-S4-Staggs-SLAC-20170302-final.pptx
5 Aug 2016 NRAO Futures 2016 Zeesh Ahmed File:AhmedFuturesCMBsummary.pdf
July 2016 ICHEP 2016 Jeff McMahon media:McMahon_ICHEP2016.pdf


28 Jan 2016 Astronomy and Astrophysics Advisory Committee (AAAC) John Carlstrom CMB-S4 update File:CarlstromCMB-S4 AAAC 160128.pdf