UCLA Dark Matter 2018

Contribution List

5. James Bullock (UCI): Structure formation simulations

Prof. James Bullock (UCI)

21/02/2018, 08:00

Talk

Session 1

6. Edward Wright (UCLA): Cosmic Backgrounds

Prof. Edward Wright (UCLA)

21/02/2018, 08:30

Talk

Session 1

The Cosmic Microwave Background has been our most profilic source of precision cosmology data. The monopole spectrum of the CMB is the dominant radiation field at 1 mm at 1 AU from the Sun. The anisotropy of the CMB is 10,000 times smaller, but still easily measurable over the galactic foreground. But the polarization anisotropy of the CMB is another order of magnitude smaller, and the B-mode...

8. Elisabeth Krause (Caltech): Dark energy

Dr Elisabeth Krause (Caltech)

21/02/2018, 09:00

Talk

Session 1

The accelerated expansion of the Universe is the most surprising cosmological discovery in decades. It has inspired a new generation ambitious surveys to determine the fundamental nature of this acceleration. This talk will introduce the different measurement techniques used by these surveys, and describe the landscape of current and near future cosmological sky surveys. This talk will...

7. Tommaso Treu (UCLA): Probing dark matter with strong gravitational lensing

Prof. Tommaso Treu (UCLA)

21/02/2018, 09:30

Talk

Session 1

Strong gravitational lensing is a powerful and unique probe of the nature of dark matter. Relying only on dark matter's gravitational interaction, strong lensing can test dark matter models that range from primordial black holes to warm, cold, and self-interacting. After a brief introduction to strong lensing as a probe of dark matter I will review some of the most exciting recent results and...

9. Simona Murgia (UCI): Dark Matter indirect detection with gamma rays.

Simona Murgia (University of California, Irvine)

21/02/2018, 10:30

Talk

Session 2

10. Carsten Rott (Sungkyunkwan University (SKKU), Korea): Indirect Searches for Dark Matter with Neutrinos

Carsten Rott (Sungkyunkwan University)

21/02/2018, 11:00

Talk

Session 2

Dark Matter could be detected indirectly through the observation of neutrinos produced in self-annihilations or decays. Searches for such neutrino signals have resulted in some of the most stringent constraints on the lifetime of heavy dark matter and world best limits on spin-dependent scattering with matter. Searches have made significant progress in sensitivity through new search...

11. James Buckley (Washington U in St Louis): Search for dark matter with ACT's

James Buckley (Washington U. Saint Louis)

21/02/2018, 11:30

Talk

Session 2

Annihilation of WIMPs into gamma-rays could provide an observable signal in future ground-based gamma-ray experiments like CTA over most of the natural parameter space for a thermal relic. High energy gamma-ray observations provide key constraints on WIMP DM, and together with complimentary direct detection and collider-based searches comprise a comprehensive program for
either confirming or...

12. Christoph Weniger (GRAPPA, Amsterdam): Indirect dark matter searches with charged cosmic rays and sub-GeV photons

Christoph Weniger (University of Amsterdam)

21/02/2018, 12:00

Talk

Session 2

19. Tien-Tien Yu (CERN): New Ideas for sub-GeV Dark Matter Direct Detection

Tien-Tien Yu (CERN)

21/02/2018, 13:30

Talk

Session 3

The lack of any unambiguous signature of traditional WIMP dark matter, with masses of order 100 GeV, in direct detection searches has prompted a great deal of interest in new techniques, both theoretical and experimental, to probe dark matter candidates below a GeV in mass. In this talk, I will provide a brief survey of some of the recent proposals for the direct detection of meV-GeV mass dark...

14. Bernard Sadoulet (UC Berkeley): Direct detection without noble gases and the low mass dark matter search frontier

Bernard SADOULET (University of California, Berkeley)

21/02/2018, 14:00

Talk

Session 3

15. Cristiano Galbiati (Princeton): Direct dark matter detection with noble gases

Cristiano Galbiati (Princeton University)

21/02/2018, 14:30

Talk

Session 3

16. Elena Aprile (Columbia): The XENON Dark Matter Search Program: Status and Prospects

Elena Aprile (Columbia)

21/02/2018, 15:00

Talk

Session 3

13. Tim Tait (UCI): Dark Messages from Accelerators

Tim M.P. Tait (University of California, Irvine)

21/02/2018, 16:00

Talk

Session 4

I will review the current status of searches for dark matter at the Large Hadron Collider, with particular attention to the interplay with other kinds of searches and the theoretical constructions used to interpret them.

17. Kalliopi Petraki (Nikhef/LPTHE, Paris): Dark matter particle candidates

Kalliopi Petraki (University of Melbourne)

21/02/2018, 16:30

Talk

Session 4

18. Anne Green (Nottingham): Primordial Black Holes as dark matter

Anne Green

21/02/2018, 17:00

Talk

Session 4

20. Peter Graham (Stanford): Experimental searches of axions and axion-like particles

Peter Graham

21/02/2018, 17:30

Talk

Session 4

104. Kevork Abazajian (UCI): Dark matter sterile neutrinos

Kevork N. Abazajian

21/02/2018, 18:00

Talk

Session 4

212. Alissa Monte (UMass Amherst): Analysis of Alpha Events in DarkSide-50

Alissa Monte

21/02/2018, 18:30

Poster

Poster Session

DarkSide-50 is the current phase of the DarkSide direct dark matter search program, operating underground at the Laboratori Nazionali del Gran Sasso in Italy. The
detector is a dual-phase argon Time Projection Chamber (TPC), designed for direct detection of Weakly Interacting Massive Particles, and housed within an active veto
system of liquid scintillator and water Cherenkov detectors. Since...

218. Ben Schlitzer (UC Davis): The Argon Response to Ionization and Scintillation Experiment

Ben Schlitzer

21/02/2018, 18:30

Poster

Poster Session

The Argon Response to Ionization and Scintillation (ARIS) experiment was constructed to characterize the response of single-scatter nuclear and electronic recoils in liquid argon in support of experiments with a liquid argon target. A 0.5 kg active volume scintillation cell of liquid argon was exposed to the highly collimated and quasi-monoenergetic LICORNE neutron source at the Institute de...

211. Brandon Melcher (Syracuse): Concentrated Dark Matter: Enhanced Small-scale Structure from Co-Decaying Dark Matter.

Brandon Melcher

21/02/2018, 18:30

Poster

Poster Session

We study the cosmological consequences of co-decaying dark matter - a recently proposed mechanism for depleting the density of dark matter through the decay of nearly degenerate particles. A generic prediction of this framework is an early dark matter dominated phase in the history of the universe, that results in the enhanced growth of dark matter perturbations on small scales. We compute the...

227. Chiara Pancaldo Salemi (MIT): ABRACADABRA, A Search for Low-Mass Axion Dark Matter

Chiara Salemi (Massachusetts Institute of Technology)

21/02/2018, 18:30

Poster

Poster Session

ABRACADABRA, A Broadband/Resonant Approach to Cosmic Axion Detection with an Amplifying B-field Ring Apparatus, is an experiment that searches for ultra-light axion and axion-like dark matter in the mass range $10^{-14}-10^{-6}\,$eV. It uses a toroidal magnet to source an oscillating effective electric current from interactions with the axion field. This current is then detected and amplified...

235. Christopher Kelso (U of North Florida): Directly detecting Isospin-Violating Dark Matter

Christopher Kelso (U of North Florida)

21/02/2018, 18:30

Poster

Poster Session

We consider the prospects for multiple dark matter direct detection experiments to determine if the interactions of a dark matter candidate are isospin-violating. We focus on theoretically well-motivated examples of isospin-violating dark matter (IVDM), including models in which dark matter interactions with nuclei are mediated by a dark photon, a Z, or a squark. We determine that the best...

207. Christopher Michael Karwin (UCI): Evidence for Extended Gamma-ray Emission Toward the Outer Halo of M31 from Fermi-LAT Observations

Christopher Michael Karwin

21/02/2018, 18:30

Poster

Poster Session

The dark matter (DM) halo of M31 is predicted to extend to roughly 300 kpc from its center, and have a mass on the order of 10^{12} M_sun, which amounts to roughly 90% of the galaxy's total mass. The halo is also predicted to contain a large amount of substructure, a subset of which hosts M31's population of satellite dwarf galaxies. At a distance of about 785 kpc from the Milky Way (MW), the...

234. Daniel Gilman (UCLA): Probing dark matter with flux ratios from multiply imaged quasars

Daniel Gilman (UCLA)

21/02/2018, 18:30

Poster

Poster Session

The properties of the dark matter particle(s), including its mass and self interactions, affect the abundance and density profiles of dark matter substructure with viral masses below 10^9 solar masses. When these halos impinge on the multiple images in strong gravitational lenses, they perturb image magnifications significantly. To connect this observable to populations of dark matter halos...

206. Esteban Jimenez (Texas A&M U. ): Dark Matter Relics and Scalar Tensor Theories

Esteban Jimenez (Texas A&M University)

21/02/2018, 18:30

Poster

Poster Session

The expansion rate of the universe had a strong influence on the origin of the dark matter abundance during the early stages of the universe's evolution, mainly prior to big-bang nucleosynthesis. Any departure of the expansion rate of the universe from the standard cosmological model during that time can modify the dark matter abundance. In this poster, I will show the role played by a scalar...

201. Estella Barbosa de Souza (Yale U.): COSINE-100 simulation and background assessment

Estella Barbosa de Souza (Yale U.)

21/02/2018, 18:30

Poster

Poster Session

The COSINE-100 experiment is a NaI(Tl) dark matter direct detection experiment, with the goal of testing DAMA’s claim for dark matter detection by looking for an annual modulation signal. It has 8 NaI(Tl) crystals, adding to a total of 106 kg, and 2000 liters of a liquid scintillator veto. Located at the Yangyang Underground Laboratory, South Korea, COSINE-100 has been running since September...

230. Field Rose Rogers (MIT): Searching for Antinucleon Signatures of Dark Matter in Cosmic Rays with GAPS

Field Rose Rogers (Yale University (US))

21/02/2018, 18:30

Poster

Poster Session

GAPS is the first experiment optimized primarily to detect low-energy cosmic antideuterons and antiprotons. Any observation of low-energy antideuterons would indicate new physics because the expected flux of such particles from conventional astrophysics is extraordinarily small. Meanwhile, low-energy antiprotons can be used to probe cosmic-ray propagation models, and with sensitivity to both...

219. Gizem Sengor (Syracuse): An effective field theory approach to preheating

Gizem Segnor

21/02/2018, 18:30

Poster

Poster Session

reheating refers to the stage at the end of inflation where the inflation transfers its energy to other fields through resonance, as opposed to perturbative decays. We will demonstrate how these mechanisms can be captured in an EFT setting for the perturbations. While the form of the Lagrangian will resemble that of the EFT of quasi single field inflation, the behavior of the EFT functions...

213. Hee Jung Kim (KAIST): Self-heating dark matter via the semi-annihilation

Mr Hee Jung Kim (KAIST (Korea Advanced Institute of Science and Technology))

21/02/2018, 18:30

Poster

Poster Session

Although the freeze-out of the dark matter (DM) number density depends on the evolution of the DM temperature, their co-evolution remains largely unexplored; it is usually assumed that the DM and standard model (SM) sectors have the same temperature. On the other hand, when the DM particles pair-annihilate with one DM particle in the final state (semi-annihilate), there is no guarantee that...

203. Irene Bolognino (INFN- Milano): Direct search of Dark Matter through the SABRE experiment

Dr Irene Bolognino (Dipartimento di Fisica Università degli Studi di Milano - INFN Sezione di Milano)

21/02/2018, 18:30

Poster

Poster Session

The interaction rate of hypothesized dark matter particles in an Earth bound detector is expected to undergo an annual modulation due to the planet’s orbital motion. The DAMA/LIBRA experiment has observed such a modulation with high significance in an array of scintillating NaI(Tl) crystals. This claim is still unverified inasmuch as the other experiments involved in this research use...

204. Jae Hyeok Chang (Stonybrook): Supernova 1987A Constraints on Low-Mass Dark Sectors

Jae Hyeok Chang (YITP, Stony Brook)

21/02/2018, 18:30

Poster

Poster Session

Supernova 1987A provides strong constraints on dark-sector particles with masses below ~100 MeV. If such particles are produced in sufficient quantity, they reduce the cooling time of the supernova, in conflict with observations. We consider the resulting constraints on dark photons, milli-charged particles, axions and sub-GeV dark matter coupled to dark photons. For the first time, we include...

228. Jagjit Singh Sidhu (CASE): Novel Macroscopic Dark Matter (Macro) Detection Schemes

Jagjit Singh Sidhu (CWRU)

21/02/2018, 18:30

Poster

Poster Session

Macroscopic objects made of baryonic matter with sizable strangeness (i.e. many of the valence quarks are strange quarks, rather than the usual up and down quarks found in protons and neutrons) may be stable, and may have formed prior to nucleosynthesis [1][2] thus evading the principal constraint on baryonic dark matter. We have analyzed the expected signals that would be...

229. Jamin Rager (UNC): An Update on the Bosonic Dark Matter Search with the MAJORANA DEMONSTRATOR

Jamin Rager (University of North Carolina - Chapel Hill)

21/02/2018, 18:30

Poster

Poster Session

The MAJORANA DEMONSTRATOR is a neutrinoless double-beta decay experiment operating at the 4850' level of the Sanford Underground Research Facility that uses modular arrays of enriched, 76Ge detectors in an ultra-low background environment. The DEMONSTRATOR has a low energy program that is capable of probing a variety of exotic keV-scale physics; it has recently produced limits on generic...

224. Jennifer Rittenhouse West (UCI): The Cosmological Fate of SU(3)_C x U(1)_EM (based on https://arxiv.org/abs/1711.04534)

Jennifer Rittenhouse West

21/02/2018, 18:30

Poster

Poster Session

An investigation into the signatures of breaking the symmetry of the current group structure of Nature in order to determine the fate of the strong and electromagnetic forces as the Universe expands and cools from 2.7 K to 0 K. A spontaneous symmetry breaking (SSB) is considered and constraints upon the scalar fields charged under SU(3)_C and U(1)_EM are discussed. For the usual Higgs...

226. Jingqiang Ye (UC San Diego): XENON1T Dark Matter Search Experiment

Jingqiang Ye

21/02/2018, 18:30

Poster

Poster Session

The XENON1T Experiment uses a liquid xenon Time Projection Chamber to search for Nuclear Recoils (NR) caused by hypothesized Weakly Interacting Massive Particles (WIMPs). The detector can get both scintillation signal and charge signal, and reject most Electronic Recoils background by utilizing the difference in the ratio of charge signal and scintillation signal. I will present the...

209. Jung-Tsung Li (UCSD): Neutrino Burst-Generated Gravitational Radiation From Collapsing Supermassive Stars

Jung-Tsung Li

21/02/2018, 18:30

Poster

Poster Session

We estimate the gravitational radiation signature of the electron/positron annihilation-driven neutrino burst accompanying the asymmetric collapse of an initially hydrostatic, radiation-dominated supermassive object suffering the Feynman-Chandrasekhar instability.
An object with a mass $5\times10^4M_\odot<M<5\times10^5M_\odot$, with primordial metallicity, is an optimal case with respect to...

216. Kris Pardo (Princeton): Astrophysical and Cosmological Constraints on Dark Matter Emulators

Kris Pardo

21/02/2018, 18:30

Poster

Poster Session

Several modified gravity theories have been proposed as attempts to explain dark matter. However, many of these dark matter emulators are unable to explain core phenomena of dark matter. We show that Verlinde's Emergent Gravity, a theory which reduces to MOND in the point mass limit, is unable to properly predict the rotation curves of isolated dwarf galaxies.
In addition, we use an analytic...

220. Mukul Sholapurkar (Stony Brook): Neutrino Backgrounds for the Direct-Detection of Sub-GeV Dark Matter

Mukul Sholapurkar (Stony Brook University)

21/02/2018, 18:30

Poster

Poster Session

The direct detection of sub-GeV dark matter has received increased interest in the last few years. Recent proposals for experimental ideas using dark matter electron scattering have opened up previously unexplored, but theoretically well-motivated, regions of parameter space. As these experiments increase their cross section reach and exposures, they will start to become sensitive to...

232. Omar Moreno (SLAC): The Light Dark Matter eXperiment

Omar Moreno (SLAC National Accelerator Laboratory)

21/02/2018, 18:30

Poster

Poster Session

The Light Dark Matter eXperiment (LDMX) proposes a high-statistics search for low- mass dark matter in fixed-target electron-nucleus collisions. Ultimately, LDMX will explore thermal relic dark matter over most of the viable sub-GeV mass range to a decisive level of sensitivity. To achieve this goal, LDMX employs the missing momentum technique, where electrons scattering in a thin target can...

214. Quynh Lah Nguyen (Notre Dame): Constraints on Interacting Dark Matter from small scale structure

Quynh Lan Nguyen

21/02/2018, 18:30

Poster

Poster Session

The core-cusp problem remains as one of the unresolved challenges between observation and simulations in the standard ΛCDM model for the formation of galaxies. Basically, the problem is that ΛCDM simulations predict that the center of galactic dark matter halos contain a steep power- law mass density profile. However, observations of dwarf galaxies in the Local Group reveal a density profile...

205. Seongjin In (Sungkyunkwan University, Korea): Solar Atmospheric Neutrino Searches with IceCube Neutrino Telescope

Seongjin In (Sungkyunkwan University)

21/02/2018, 18:30

Poster

Poster Session

Searches for dark matter annihilations in the Sun have resulted in some of the strongest bounds on the dark matter proton scattering cross section. Solar dark matter searches, however face an irreducible background from solar atmospheric neutrinos. We are presenting a search for solar atmospheric neutrinos conducted with the IceCube neutrino telescope to quantify this sensitivity floor....

217. Tao Ren (UC Riverside): Diversity and Uniformity of Rotation Curves from Self-interacting Dark Matter Framework

Tao Ren (UC Riverside)

21/02/2018, 18:30

Poster

Poster Session

Rotation curves of galaxies have diverse behavior in the central regions, but they obey an organizing principle in that the rotation curves can be approximately described by a radial acceleration relation or the Modified Newtonian Dynamics (MOND) phenomenology. We show that both the diversity
and uniformity are naturally reproduced in a hierarchical structure formation model with the simple...

223. Thomas Thorpe (University of Hawaii): A Prototype Directional Dark Matter Detector

Thomas Thorpe

21/02/2018, 18:30

Poster

Poster Session

As direct dark matter detectors become larger, and gain sensitivity, they will start detecting neutrinos via coherent scattering with their target nuclei. The most powerful way to discriminate neutrino from dark matter scattering, amongst other backgrounds, is to measure the direction of the nuclear recoils and use this information to reconstruct the source location, a so-called directional...

222. William Thompson (Yale): Monitoring System and Data Stability of COSINE-100

William Thompson (Yale University)

21/02/2018, 18:30

Poster

Poster Session

COSINE-100 is a direct detection dark matter experiment consisting of 106 kg of low-background NaI(Tl) detectors located at the Yangyang Underground Laboratory in Korea. One of the primary physics goals of COSINE-100 is to search for a WIMP-induced annual modulation signal to confirm or refute DAMA/LIBRA’s claim of dark matter discovery. The search for an annual modulation signal requires a...

233. Xinran Li (Princeton): Study on CMOS imaging detector for the search of neutrinoless double $\beta$ decay in ${}^{82}\mathrm{Se}$

Xinran Li (Princeton University)

21/02/2018, 18:30

Poster

Poster Session

The observation of a neutrinoless double $\beta$ decay branching ratio is the only known test if neutrinos are Majorana fermions. While one of the isotope, ${}^{82}\mathrm{Se}$, being a double $\beta$ decay candidate, amorphous selenium have been used as X-ray detector for medical imaging for decades. In this work, a high-resolution solid state a-Se imaging detector based on CMOS technology...

225. Ziping Ye (University of Houston): Neutrino Detection in DarkSide-20k

Ziping Ye

21/02/2018, 18:30

Poster

Poster Session

The core detector of the now planned DarkSide-20K experiment is a two-phase liquid argon time projection chamber (LAr TPC) with 20 tons fiducial mass. It is designed to register possible nuclear recoil events due to rare scattering of dark matter particles and atomic nuclei, and is located deep underground at Gran Sasso National Lab (LNGS) in Italy. DarkSide-20K can achieve background free...

148. Anna Nierenberg (UCI): The nature of dark matter with narrow-line lensing

Dr Anna Nierenberg (UCI)

22/02/2018, 07:30

Talk

Session 5

Strong gravitational lensing provides a means of measuring the halo mass function into regimes below which baryons are reliable tracers of structure. In this low mass regime (M_vir<10^9 M_sun), the microscopic characteristics of dark matter affect the abundance of dark matter halos.Strong gravitational lensing has been limited by the small number of systems which can be used to detect dark...

149. Marcel Pawlowski (UCI): Phase-space structures in satellite galaxy systems

Marcel Pawlowski (University of California Irvine)

22/02/2018, 07:50

Talk

Session 5

Our ever-increasing observational knowledge of satellite galaxy systems now allows us to identify structures in the phase-space distribution of satellites belonging to a common host, by studying their distribution and motion. This can potentially reveal connections in the formation and evolution history of different satellite galaxies, but can also be used to test cosmological models. One...

150. Simeon Bird (UC Riverside): Did LIGO Detect Dark Matter?

Simeon Bird (UC Riverside)

22/02/2018, 08:10

Talk

Session 5

I will discuss the possibility that the black-hole binary detected by LIGO may be a signature of primordial black hole dark matter. If two BHs in a galactic halo pass sufficiently close, they radiate enough energy in gravitational waves to become gravitationally bound. Curiously, the expected merger rate from these objects overlaps with that predicted by LIGO. Although a PBH dark matter...

151. Michael Boylan-Kolchin (U of Texas, Austin): Testing Dark Matter Models with Dwarf Galaxies

Mike Boylan-Kolchin (U. of Texas at Austin)

22/02/2018, 08:30

Talk

Session 5

Dwarf galaxies are among the best laboratories for exploring the nature of dark matter: their high dark matter content, coupled with the large number of dwarfs in close proximity to us, enable a variety of tests that are not possible with other astrophysical systems. I will discuss our efforts to understand unique signatures of both standard cold dark matter and various alternatives (including...

152. Katherine Freese (U Michigan): Dark Stars

Katherine Freese (University of Michigan)

22/02/2018, 08:50

Talk

Session 5

The first phase of stellar evolution in the history of the Universe may be Dark Stars (DS), powered by dark matter heating rather than by nuclear fusion. Weakly Interacting Massive Particles which are their own antipartners can collect inside the first stars and annihilate to produce a heat source that powers the stars. A new stellar phase results, a Dark Star, which lasts as long as there is...

154. Daniele Gaggero (GRAPPA, Amsterdam): Primordial black holes as Dark Matter candidates?

Daniele Gaggero

22/02/2018, 09:04

Talk

Session 5

The idea that primordial black holes (PBHs) of O(10) solar mass can account for all the dark matter has been recently reconsidered after the discovery of a gravitational wave signal.  We present a robust bound on this scenario based on a novel approach: We model in a conservative way the accretion of gas and the subsequent radio and X-ray emission originating by a population of PBHs in our...

156. Dan Hooper (Fermilab): Pulsars and the Galactic Center Gamma-Ray Excess

dan hooper

22/02/2018, 09:18

Talk

Session 6

I will summarize the evidence in support of, and in opposition to, pulsars as the source of the gamma-ray excess observed from the Inner Milky Way. The evidence in favor of a pulsar origin includes the observed small scale power in the gamma-ray emission from this region, and possible correlations between this emission and the distribution of stars. In opposition to this conclusion are the...

155. Tim Linden (Ohio State): Rise of the Leptons: Pulsar Emission Dominates the TeV Gamma-Ray Sky

Tim Linden (U)

22/02/2018, 09:38

Talk

Session 6

Recent HAWC observations have found extended TeV emission coincident with the Geminga and Monogem pulsars. In this talk, I will show that these detections have significant implications for our understanding of the TeV gamma-ray sky. First, the spectrum and intensity of these TeV Halos indicates that a large fraction of the pulsar spindown energy is efficiently converted into electron-positron...

157. Wim de Boer (Karlsruhe Inst. of Technology): The FERMI excess investigated over the whole gamma-ray sky

Wim De Boer (KIT - Karlsruhe Institute of Technology (DE))

22/02/2018, 10:25

Talk

Session 6

The so-called Fermi-excess in the diffuse Galactic gamma-ray sky is observed as a shift of the maximum in the E^2 weighted gamma-ray spectrum from 0.7 GeV to around 2 GeV. Such a shift can be explained by the contribution of a new source with a spectrum peaking at 2 GeV. Three sources have been proposed: a dark matter (DM) annihilation signal, a signal from millisecond pulsars (MSPs), a...

158. Martin Winkler (NORDITA): Hunting for WIMPs with Charged Cosmic Rays

Martin Winkler (Nordita)

22/02/2018, 10:39

Talk

Session 6

Weakly Interacting Massive Particles (WIMPs) have been the target of cosmic ray experiments for decades. AMS-02 is the first experiment which can realistically probe WIMP annihilation signals in the antiproton channel. Due to the tiny experimental errors, uncertainties in the astrophysical background have become the most limiting factor for dark matter detection. I will use the combination of...

159. Tsuguo Aramaki (SLAC): GAPS - Hunting for Dark Matter with Cosmic-ray Antimatter

Tsuguo Aramaki (SLAC)

22/02/2018, 10:53

Talk

Session 6

GAPS (General Antiparticle Spectrometer) is a balloon-based indirect dark matter search experiment that focuses on low-energy antiprotons and antideuterons produced by dark matter annihilation and decay in the Galactic halo. The predicted antideuteron flux from well-motivated dark matter models can be more than two orders of magnitude larger than the one produced by the cosmic-ray interaction...

165. Alexander Dolgov (NSU and ITEP, Moscow): Massive Primordial Black Holes and Dark Matter

Alexander Dolgov (NSU)

22/02/2018, 11:09

Talk

Session 7

Recent astronomical observations, indicating that the universe at high redshfts, z=5 -10, is unexpectedly densely populated by bright galaxies, supermassive black holes (quasars), gamma-bursters, supernovae and is very dusty, are reviewed. It is argued that the origin of these early formed objects is at odds with the conventional theory of their formations. Moreover, similar and probably...

160. Howard Baer (U. of Oklahoma): Prospects for WIMP and axion detection in SUSY with radiatively-driven naturalness

Howard Baer (University of Oklahoma)

22/02/2018, 11:23

Talk

Session 7

SUSY with radiatively driven naturalness combines solutions to the gauge hierarchy problem, the strong CP problem, the SUSY mu problem and the Little Hierarchy problem. Dark matter is expected to be a higgsino-like WIMP plus SUSY DFSZ axion admixture where axions typically dominate the dark matter abundance. Nonetheless, prospects are better for WIMP detection than for axion detection. If...

161. Peiwen Wu (Korea Inst. for Advanced Study): Heavy Quark Flavored Scalar Dark Matter

Peiwen Wu (Korea Institute for Advanced Study (KIAS))

22/02/2018, 11:37

Talk

Session 7

The absence of confirmed signal in dark matter (DM) direct detection (DD) may suggest a weak coupling between DM and the first generation quarks. In this work we consider a real scalar dark matter $S$ which has new Yukawa interactions with charm $c$ and top quark $t$ via a vector-like fermion mediator $\psi$. By setting the Higgs portal to be negligible, we focus on the new Yukawa...

186. Samuel Witte (U. of Valencia): Unified Halo-Independent Formalism for Direct Detection Experiments

Samuel Witte (IFIC, University of Valencia)

22/02/2018, 11:51

Talk

Session 7

In this talk I will present a new halo-independent formalism for the analysis of direct dark matter detection experiments which proves that: either the dark matter speed distribution or the Galactic dark matter velocity distribution that maximizes any likelihood can always be expressed in terms of a small number of delta functions. The aforementioned proof, based on the Fenchel-Eggleston...

162. Paolo Gondolo (University of Utah): The halo-independent approach as a problem of moments

Paolo Gondolo (University of Utah)

22/02/2018, 12:05

Talk

Session 7

Halo-independent methods in the analysis of WIMP detection data have up to now provided separate constraints for specific integrals of the WIMP velocity distribution, and have assumed separate velocity distributions for the modulated and unmodulated rates. This has hindered the statistical interpretation of the results and has restricted the analysis to the comparison of experiments. I have...

180. Dmitri Nanopoulos (TAMU): Starobinsky-like inflation, supercosmology and neutrini masses in no-scale flipped SU(5)

Dimitri Nanopoulos (University of Texas (US))

22/02/2018, 12:19

Talk

Session 7

Flipped SU(5) is embedded in a no-scale supergravity framework and discuss its predictions for cosmic microwave background observables which are Starobinsky-like, with a possible variation in the ratio r of the tensor to scalar perturbations. I'll discuss the model's predictions for neutrino masses,and show their dependence on the inflaton mass,thus correlating the heavy right-handed neutrino...

166. Matteo Cremonesi (Fermilab): Dark matter searches at the LHC

Matteo Cremonesi (Fermi National Accelerator Lab. (US))

22/02/2018, 13:35

Talk

Session 8

167. Peter Lewis (University of Hawaii): Dark Sector Physics with Belle II

Peter Lewis (University of Hawaii)

22/02/2018, 13:55

Talk

Session 8

The next-generation B-factory experiment Belle II at the upgraded KEKB accelerator, SuperKEKB, will start physics data taking in 2018. It is an asymmetric e+e- collider that will operate with 40x the instantaneous luminosity of KEKB/Belle and aims to collect 50 times more data in total.

Belle II offers the possibility to search for a large variety of dark sector particles in the GeV mass...

168. Daniel Snowden-Iff (Occidental College): BDX-DRIFT: A low-energy, low-background, directional search for light dark matter at accelerators

Daniel Snowden-Ifft

22/02/2018, 14:12

Talk

Session 8

Electron beam dump experiments have been shown to have high sensitivity to light dark matter at accelerators (LDMA). In these experiments high-intensity, multi-GeV electron beams directed at fixed targets can produce, because of couplings to charge, light dark matter particles. With their weak couplings these light dark matter particles easily pass through the beam dump plus, typically, large...

169. Andrew Spray (CTPU, Inst. for Basic Science, Korea): Prospective Searches for Electroweak Dark Matter at CLIC

Andrew Spray (CoEPP, University of Melbourne)

22/02/2018, 14:26

Talk

Session 8

Electroweak multiplets are an archetypal candidate for the WIMP paradigm of thermal dark matter. Examples include the Wino and Higgsino of supersymmetry, as well as the fermion quintet of Minimal Dark Matter. We discuss the prospective limits and discovery reach at the proposed future lepton collider CLIC on these and similar models. When the components of the multiplet are approximately...

170. Christian Boutan (Pacific Northwest National Laboratory): The Axion Dark Matter Experiment (ADMX): Overview & Recent Results

Christian Boutan (Pacific Northwest National Laboratory)

22/02/2018, 14:42

Talk

Session 9

The Axion Dark Matter eXperiment (ADMX) is a DOE "Generation 2" direct-detection dark matter project searching for $\mu$eV axions. Exploiting the inverse primakoff effect where $a \rightarrow \gamma^{*} \gamma $, the experiment utilizes a tunable, high-Q cavity, submerged in a 8 Tesla magnetic field and looks for the resonant conversion of axions into microwave photons. Over the last decade...

171. Jonghee Yoo (KAIST): Axion Dark Matter Search

Prof. JONGHEE YOO (KAIST)

22/02/2018, 15:02

Talk

Session 9

It has now been proven that the Universe is mostly filled with what we cannot see; dark matter. The presence of dark matter had profound consequences on the evolution of the Universe. The Standard Model does not accommodate a suitable dark matter candidate. Therefore the existence of dark matter is a crucial phenomenological evidence for physics Beyond the Standard Model. The pressing goal of...

172. Alexander Millar (MPI Munich): Dielectric haloscopes: a new way to search for axion dark matter

Alexander Millar (Max Planck Institute for Phyiscs)

22/02/2018, 15:22

Talk

Session 9

We propose a new strategy to search for dark matter axions in the mass range of 40–400μeV by introducing dielectric haloscopes, which consist of dielectric disks placed in a magnetic field. When an interface between different dielectric media is inside a magnetic field, the oscillating axion field acts as a source of electromagnetic waves, which emerge in both directions perpendicular to the...

173. Luca Visinelli (Stockholm University and Nordita): Axions in cosmology and astrophysics

Dr Luca Visinelli (Stockholm University and Nordita)

22/02/2018, 15:37

Talk

Session 9

The axion is a well-motivated hypothetical particle which candidates to constitute the observed cold dark matter budget. In this talk, I first revise the properties of the axion in light of current bounds from astrophysics and cosmology, and give some prospects for future searches. I then discuss some mechanisms to relax such bounds. I conclude by presenting a possible detection challenge,...

174. Enrico Schiappacasse (Institute of Cosmology - Tufts University): Axion Dark Matter Clump

Mr Enrico Schiappacasse (Institute of Cosmology - Tufts University)

22/02/2018, 16:20

Talk

Session 9

Recently there has been much interest in the spatial distribution of light scalar dark matter, especially axions, throughout the universe. When the local gravitational interactions between the scalar modes are sufficiently rapid, it can cause the field to re-organize into a Bose-Einstein condensate of gravitationally bound clumps. These clumps are stable when only gravitation is included, but...

175. Ariel Zhitnitsky (University of British Columbia): Cosmological axion field and quark nugget dark matter model

Ariel Zhitnitsky (University of British Columbia)

22/02/2018, 16:34

Talk

Session 9

I overview the dark matter model offering a very natural explanation of two (naively unrelated) problems in cosmology: the observed relation $\Omega_{\rm DM}\sim\Omega_{\rm visible}~~$ and the observed asymmetry between matter and antimatter in the Universe, known as the ``baryogenesis" problem. In this framework, both types of matter (dark and visible) have the same QCD origin, form at...

176. Miguel Daal (UCSB): Light Bosonic Dark Dark Matter Search Using Microwave Kinetic Inductance Detectors (MKIDs)

Miguel Daal (UCSB)

22/02/2018, 16:48

Session 9

We describe a proposed small-scale direct detection experiment to search for dark matter in the form of vector bosons in the mass range 0.1 to 10 eV/c$^2$, i.e. dark photons. The experiment is designed so that dark photon absorption onto electrons would create quasi-particles in 2500 superconducting aluminum absorbers, which would all fit on a 4 inch wafer. The quasi-particles would be...

177. Yevgeny Stadnik (Johannes Gutenberg University of Mainz): New Laboratory and Astrophysical Probes for Low-Mass Dark Matter and Dark Bosons

Yevgeny Stadnik (University of New South Wales)

22/02/2018, 17:02

Talk

Session 9

Low-mass bosonic dark matter particles produced after the Big Bang may form an oscillating classical field, which can be sought for in a variety of low-energy laboratory experiments based on spectroscopic, interferometric and magnetometric techniques, as well as in various astrophysical phenomena. Dark bosons can also mediate anomalous fifth forces between ordinary-matter particles that can be...

178. Arran Phipps (Stanford University): Dark Matter Radio

arran phipps (Stanford University)

22/02/2018, 17:16

Talk

Session 9

The Dark Matter Radio (DM Radio) is a sensitive search for sub-eV axion and hidden photon dark matter over a wide mass range. While Weakly Interacting Massive Particles (WIMPs) have been the primary focus of direct detection for several decades, there has been growing interest in searching for ultra-light-field candidates such as the hidden photon (spin 1 boson) and axion (spin 0 boson). DM...

181. Lina Necib (Caltech): Empirical Determination of the Dark Matter Velocity Distribution

Lina Necib (MIT)

22/02/2018, 17:32

Talk

Session 10

Using the hydrodynamic simulation Eris, we found that the kinematics of dark matter follows closely the kinematics of old metal poor stars, present in the Milky Way's stellar halo. We use this correspondence to obtain the first empirical measurement of the local velocity distribution of dark matter, by analyzing the Gaia data and computing the velocity distribution of metal poor stars. We find...

164. Riccardo Catena (Chalmers U. of Technology, Sweden): Determining dark matter particle properties with direct detection experiments

Riccardo Catena (SISSA)

22/02/2018, 17:46

Talk

Session 10

Direct detection experiments search for nuclear recoil events induced by the non-relativistic scattering of Milky Way dark matter (DM) particles in low-background detectors. Current strategies for the experimental analysis and theoretical interpretation of direct detection experiments focus on two parameters: the DM particle mass, and the cross-section for DM-nucleon scattering computed under...

184. Patrick Stengel (Stockholm): Dark Matter and QCD-Charged Mediators in the Quasi-Degenerate Regim

Patrick Stengel

22/02/2018, 18:00

Talk

Session 10

We study a scenario in which the only light new particles are a Majorana fermion dark matter candidate and one or more QCD-charged scalars, which couple to light quarks.This scenario has several interesting phenomenological features if the new particles are nearly degenerate in mass. In particular, LHC searches for the light scalars have reduced sensitivity, since the visible and invisible...

183. Paul Shapiro (U of Texas at Austin): Cosmology in a Universe with Complex Scalar-Field Dark Matter

Paul Shapiro (The University of Texas at Austin)

22/02/2018, 18:14

Talk

Session 10

We consider an alternative to WIMP cold dark matter (CDM), ultralight bosonic dark matter (m ≥ 10^(-22) eV) described by a complex scalar field (SFDM) with global U(1) symmetry, for which the comoving particle number density is conserved after particle production during standard reheating. We allow for a repulsive self-interaction. For complex SFDM, structure formation is CDM-like on large...

182. Tanja Rindler-Daller (U of Vienna): Growth of perturbations in a Universe with complex scalar-field dark matter

Dr Tanja Rindler-Daller (Dept. of Physics, University of Michigan)

22/02/2018, 18:28

Talk

Session 10

There is great interest in scalar-field dark matter (SFDM) comprised of ultralight bosons, in which structure formation is supposed to be like standard CDM on large scales but suppressed on small scales by quantum effects. We study the case of complex SFDM, with a global U(1)-symmetry, for which the comoving boson number density is conserved after reheating when SFDM emerged. In addition, we...

163. Sebastian Baum (Stockholm U. and Oskar Klein Centre, Sweden): Thermal dark matter and the Higgs

Sebastian Baum (Stockholm University and Oskar Klein Centre)

22/02/2018, 18:42

Talk

Session 10

We analyze a low energy effective model of Dark Matter in which the thermal relic density is provided by a singlet Majorana fermion which interacts with the Higgs fields via higher dimensional operators. Direct detection signatures may be reduced if so-called blind spot solutions exist, which naturally appear in models with extended Higgs sectors. Explicit mass terms for the Majorana fermion...

105. Kaixuan Ni (UCSD): Analyzing the XENON1T Dark Matter Search Data

Kaixuan Ni

23/02/2018, 08:00

Talk

Session 12

XENON1T is the largest running liquid xenon detector for searching dark matter at Gran Sasso underground laboratory. The detector has been running in a stable condition for about one year and is delivering record-breaking exposure for dark matter direct detection. In this talk, I will present the details on the data reconstruction, selection, calibration and background analyses, leading...

106. Jianglai Liu (Shanghai Jiao Tong U.): PandaX status and prospects

Jianglai Liu (Shanghai Jiao Tong University)

23/02/2018, 08:15

Talk

Session 12

The Particle and Astrophysical Xenon (PandaX) is a series of xenon-based ultra-low background experiments in the China Jinping underground Laboratory, aiming to search for Weakly-interacting massive particles (WIMPs) and to study neutrino properties. PandaX-II, with a 580-kg liquid xenon TPC currently under operation, is one of the leading WIMP direct detection experiment. In this talk, I...

111. Christina Ignarra (SLAC): Overview and New Results from the LUX Experiment

Christina Ignarra (SLAC)

23/02/2018, 08:30

Talk

Session 12

The Large Underground Xenon (LUX) detector was a dual-phase xenon TPC with an active mass of 250 kg searching for Weakly Interacting Massive Particle (WIMP) dark matter via direct detection. It operated at the Sanford Underground Research Facility (SURF) in Lead, South Dakota from 2012-2016. This talk will report results from several new analyses: an effective field theory approach to explore...

112. Jingke Xu (LLNL): A search for annual and diurnal rate modulations in the LUX experiment

Jingke Xu

23/02/2018, 08:45

Talk

Session 12

We will report a search for annual and diurnal rate modulations using over 20 months of LUX data acquired between 2013 and 2016. This study focuses on electron recoil events at low energies. We obtained a low and stable event rate by using the innermost volume of the LUX detector and by developing robust cuts and corrections to address the observed time-dependence of the detector performance....

108. Peter Meyers (Princeton U): Darkside Latest Results

Peter Meyers (Princeton University)

23/02/2018, 09:00

Talk

Session 12

DarkSide uses a dual-phase Liquid Argon Time Projection Chambers to search for WIMP dark matter. The talk will present the latest result from the current experiment, DarkSide-50, running since mid 2015 a 50-kg-active-mass TPC, filled with argon from an underground source measured to contain lower Ar-39, the largest source of background, than atmospheric argon by a factor of >1000.

110. Vincenzo Caracciolo (LNGS, INFN): Dark Matter Investigation by DAMA/LIBRA

Vincenzo Caracciolo (INFN - National Institute for Nuclear Physics)

23/02/2018, 09:15

Talk

Session 12

The DAMA/LIBRA set-up (about 250 kg highly radiopure NaI(Tl)) is currently in data taking at the Gran Sasso National Laboratory of the I.N.F.N. in its phase2. This experiment is dedicated to the investigation of Dark Matter (DM) particles in the galactic halo mainly by exploiting the model independent Dark Matter annual modulation signature. DAMA/LIBRA collected in its ?rst phase data over 7...

107. Bernhard Siebenborn (Karlsruhe Inst. of Technology (KIT)): Results from the EDELWEISS-III Dark Matter search, prospects for EDELWEISS-LT and beyond

Bernhard Siebenborn (Karlsruhe Institute of Technology (KIT))

23/02/2018, 09:30

Talk

Session 12

EDELWEISS is a phased direct Dark Matter search program looking for WIMPs in the GeV-TeV mass range with cryogenic Ge mono-crystals. The simultaneous measurement of heat via thermal sensors (NTDs) and ionization signals allows for discrimination of nuclear against electron recoils. We present our results of the first stage of EDELWEISS-III and discuss the currently ongoing R&D approaches and...

109. Holger Kluck (HEPHY, Vienna): Search for low-mass dark matter with the CRESST-III experiment

Holger Kluck (HEPHY)

23/02/2018, 09:45

Talk

Session 12

The third stage of the Cryogenic Rare Event Search with Superconducting Thermometers (CRESST-III) searches directly for interactions of dark matter with ordinary matter
at the Laboratori Nazionali del Gran Sasso (LNGS) in Italy. The detector targets of CRESST-III are CaWO_4 crystals which are operated as cryogenic calorimeters at O(10)mK. The main event signature for a potential dark...

122. Robert Calkins (SMU): Sub-GeV mass dark matter with the SuperCDMS experiment

Robert Calkins (Southern Methodist University)

23/02/2018, 10:30

Talk

Session 13

Improvements in detector technologies have allowed direct detection experiments access to lower detection thresholds. In the case of the SuperCDMS Soudan experiment, this additional reach has been facilitated by applying strong electric potentials across each detector and taking advantage of the Neganov-Trofimov-Luke (NTL) effect to amplify ionization signals. For dark matter models with...

117. Ken Clark (SNOLAB): The PICO Experiment

Ken Clark (SNOLAB)

23/02/2018, 10:45

Talk

Session 13

The PICO collaboration uses bubble chambers to search for dark matter with results leading the world in sensitivity to the direct detection of WIMPs with spin-dependent coupling to protons. PICO recently operated a 32 litre bubble chamber (PICO-60) at the SNOLAB underground laboratory and currently has a 40 litre detector under construction. This new device (PICO-40L) will demonstrate the...

121. Status of the DEAP-3600 Dark Matter Search

Shawn Westerdale (Carleton University)

23/02/2018, 11:00

Talk

Session 13

DEAP-3600 is a single phase dark matter detector filled with 3.3 tonnes of liquid argon (LAr). The active volume is viewed by an array of 255 PMTs, separated from the LAr by 50 cm of acrylic. The whole detector is submerged in a large cylindrical water Cherenkov detector, which acts as a muon veto. DEAP-3600 began operations in May 2016, and has been running stably since November 2016....

120. Christian Regenfus (ETH Zurich): Status Report of The ArDM Project

Christian Regenfus (Eidgenoessische Technische Hochschule Zuerich (ETHZ) (CH))

23/02/2018, 11:15

Talk

Session 13

The ArDM experiment, installed in the Canfranc underground laboratory LSC in Spain, is the first tonne-scale dual phase Liquid Argon detector designed for direct Dark Matter detection. Due to its size it represents an important milestone in the world wide effort for the development of large LAr Dark Matter detectors. The results from a commissioning run in the single phase operational mode...

116. Alvaro Chavarria (U. of Washington): First results from the full CCD array of DAMIC at SNOLAB

Prof. Alvaro Chavarria (University of Washington)

23/02/2018, 11:30

Talk

Session 13

Millimeter-thick charge-coupled devices (CCDs) are outstanding particle detectors. Although initially developed for near-infrared astronomy, the low pixel noise also makes them the most sensitive detectors to signals from ionizing radiation. By virtue of their very low energy threshold (<100 eV of ionizing energy) and their unique capabilities for background characterization based on their...

118. Reina Maruyama (Yale U.): COSINE-100

Reina Maruyama

23/02/2018, 11:45

Talk

Session 13

Astrophysical observations give overwhelming evidence for the existence of dark matter. While the DAMA collaboration asserts that they observe a dark matter-induced annual modulation signal in their NaI(Tl)-based detectors, their signal has not been confirmed. DAMA's observations are inconsistent with those from other direct detection dark matter experiments under most assumptions of dark...

119. Marisa Sarsa (U. of Zaragoza, Spain): Testing DAMA/LIBRA result with ANAIS-112 experiment

Prof. Marisa Sarsa (University of Zaragoza)

23/02/2018, 12:00

Talk

Session 13

Detecting the elusive WIMPs (Weakly Interacting Massive Particles) proposed to explain the dark matter has shown to be a very challenging effort. The study of distinctive features in the WIMP signal allowing disentangling it from other backgrounds is an important asset in this search. The motion of the Earth around the Sun will produce a modulation in the dark matter interaction rate along the...

115. Burkhant Suerfu (Princeton U.): Status of the SABRE NaI(Tl) Dark Matter Experiment

Burkhant Suerfu (Princeton University)

23/02/2018, 12:15

Talk

Session 13

SABRE is an experiment that is being developed to search for dark matter with an array of NaI(Tl) scintillating crystals. A primary goal is to test the DAMA-LIBRA modulation signal claimed to be evidence for dark matter. The experiment will employ NaI(Tl) crystals with low levels of internal radioactivity in an active shield of liquid scintillator and water. In the past two years SABRE has...

123. Peter F. Smith (UCLA): The HUNTER experiment: proposed detection of keV-range sterile neutrinos by energy-momentum reconstruction of atomic K-capture

PETER F SMITH (UCLA)

23/02/2018, 13:30

Talk

Session 14

Right-handed or sterile neutrinos in the keV mass range have been proposed as an explanation of the galactic dark matter. Although direct detection of these is not feasible at the present time, the existence of such neutrinos could be demonstrated in the laboratory as rare events in atomic K-capture, emitting a neutrino together with atomic recoil, the K-vacancy then filled from a higher...

124. Philippe Gros (Queen's U., Kingston, Canada): NEWS-G: search for low-mass WIMPS with Spherical Proportional Counters

Philippe Gros (Queen's University, Kingston, Canada)

23/02/2018, 13:45

Talk

Session 14

NEWS-G (New Experiments With Spheres-Gas) is a direct dark matter detection experiment using Spherical Proportional Counters (SPCs). It uses light noble gases to search for Weakly Interacting Massive Particles (WIMPs) down to the sub-GeV/c$^2$ mass region. The NEWS-G project builds on the experience gathered with the SEDINE detector, a 60cm SPC which has been operating for several years at...

127. Tien-Tien Yu (CERN): Exploring the sub-GeV Dark Matter Frontier with SENSEI

Tien-Tien Yu (CERN)

23/02/2018, 14:00

Talk

Session 14

SENSEI is a small-scale silicon CCD detector designed to search for sub-GeV dark matter. The Skipper readout technology employed by SENSEI has sensitivity to single-electron signals, thus giving SENSEI one of the lowest thresholds ever demonstrated in DM direct detection. This low threshold will allow for unprecedented sensitivity to the largely unexplored, but theoretically well-motivated,...

125. Joshua Berger (U. of Wisconsin-Madison): Searching for Boosted Dark Dark Matter in Large Volume Neutrino Detectors

Joshua Berger (University of Wisconsin-Madison)

23/02/2018, 14:15

Talk

Session 14

We study novel scenarios where thermal dark matter (DM) can be efficiently captured in the Sun and annihilate into boosted dark matter. We study scenarios which can yield viable thermal relic DM with masses O(1)-O(100) GeV. Taking advantage of the energetic deposits that arise when the boosted DM scatters off matter, we propose a detection strategy which uses large volume neutrino detectors....

126. Gulden Othman (U. of North Carolina-Chapel HIll): Low-Mass WIMP Search Using the MAJORANA DEMONSTRATOR

Gulden Othman (University Of North Carolina)

23/02/2018, 14:30

Talk

Session 14

The MAJORANA DEMONSTRATOR is currently searching for neutrinoless double-beta decays in germanium-76 with the aim of demonstrating the feasibility to deploy a tonne-scale experiment in a phased and modular fashion. It consists of two modular arrays of natural and $^{76}$Ge-enriched germanium detectors totaling 44.1 kg, of which 29.7 kg is enriched, operating at the 4850' level of the Sanford...

231. Omar Moreno (SLAC): First Results from the Heavy Photon Search

Omar Moreno (SLAC National Accelerator Laboratory)

23/02/2018, 14:45

Talk

Session 14

The Heavy Photon Search (HPS) experiment at Jefferson Lab is searching for a new U(1) vector boson ("heavy photon", "dark photon" or A') in the mass range of 20-500 MeV/c2. An A' in this mass range is theoretically favorable and may also mediate dark matter interactions. The A' couples to the ordinary photon through kinetic mixing, which induces its coupling to electric charge. Since heavy...

131. Alessandro Razeto (LNGS, INFN, Italy): SiPM at cryogenic temperature for dark matter

Dr Alessandro Razeto (LNGS, INFN, Italy)

23/02/2018, 15:00

Talk

Session 15

DarkSide-20k is a 20 tonne fiducial mass liquid argon TPC that will perform an instrumental background-free search for WIMP dark matter. The TPC will be outfitted with more than 125,000 silicon photomultipliers (SiPM) grouped into 5210 single-channel, $25\ {\rm cm}^2$ photosensors that are sensitive to single photoelectrons. We will present the performance of the photosensor and associated...

128. Hugh Lippincott (Fermilab): Status of the LZ construction project

Hugh Lippincott (Fermilab)

23/02/2018, 15:15

Talk

Session 15

The LUX-ZEPLIN (LZ) detector is a next generation dark matter detector that will use a 7 active tonne liquid xenon time projection chamber (LXe-TPC) to search for dark matter particles, among other rare phenomena. The LZ project was approved in 2014 to continue toward fabrication and is now in the construction phase. In this talk, I will give an update on the current status and schedule of the...

129. Sally Shaw (UCSB): The LZ Outer Detector

Dr Sally Shaw (UCSB)

23/02/2018, 15:30

Talk

Session 15

The LUX-ZEPLIN (LZ) dark matter experiment will consist of 7 active tonnes of liquid xenon sensitive to the nuclear recoils induced by impinging weakly interacting massive particles (WIMPs). Backgrounds to a WIMP signal tend to populate the boundaries of the LZ sensitive volume, where gamma-rays and neutrons from nearby material can enter, scatter once, and exit. The Outer Detector (OD) of...

132. Grzegorz Zuzel (Jagiellonian U. in Krakow): Low-background techniques in direct dark matter searches

Grzegorz Zuzel (Jagiellonian University in Krakow)

23/02/2018, 15:45

Talk

Session 15

In many experiments searching for rare nuclear processes, like direct interactions of cold dark matter particles, an extremely low radioactive contamination level of the detector target and the surrounding materials has to be achieved. This is only possible after implementation of an extensive R&D program and careful material screening with appropriate devices. Selected ultra-sensitive...

141. Paolo Agnes (Houston U): Measurement of liquid argon response to nuclear and electronic recoils with the ARIS experiment

paolo agnes (University of Houston)

23/02/2018, 16:30

Talk

Session 16

The Argon Response to Ionization and Scintillation (ARIS) experiment utilized monoenergetic fixed-angle neutron and gamma scatters to characterize liquid argon response to nuclear and electronic recoils for support of direct dark matter detection experiments with a liquid argon target. The relative scintillation efficiency for low energy single-scatter nuclear recoils and the recombination...

130. Juijen (Ryan) Wang (U of New Mexico): Triplet Lifetime Measurement in Gaseous Argon using MiniCLEAN Detector

Dr Juijen (Ryan) Wang (University of New Mexico)

23/02/2018, 16:45

Talk

Session 16

The MiniCLEAN (Cryogenic Low-Energy Astrophysics with Noble liquid) dark matter experiment will exploit a single-phase liquid argon detector instrumented with 92 photomultiplier tubes placed in the cryogen with 4-$\pi$ coverage of a 500 kg (150 kg) target (fiducial) mass. The detector design strategy emphasizes scalability to target masses of order 10 tons or more. During the initial cooling...

140. Kelsey Oliver-Mallory (LBNL): Determination of Backgrounds for the LUX Experiment

Kelsey Oliver-Mallory (Lawrence Berkeley National Laboratory)

23/02/2018, 17:00

Talk

Session 16

LUX (Large Underground Xenon) is a retired 250 kg liquid xenon dark matter direct detection experiment. Determination of radiogenic backgrounds is essential for accurate extraction of signals and optimization of detector sensitivity. In this talk, we present analyses of backgrounds in the LUX detector, extending the energy scale beyond what is documented in previous publications. This work...

142. Lucie Tvrznikova (Yale/LBNL): Characterization of high voltage behavior in noble liquids with XeBrA

Lucie Tvrznikova (Yale/LBNL)

23/02/2018, 17:15

Talk

Session 16

The Xenon Breakdown Apparatus (XeBrA) is a 5-liter detector designed to study high voltage behavior in noble liquids, located at Lawrence Berkeley National Laboratory. XeBrA is designed to characterize the dependence of electric field breakdown on electrode properties in both liquid argon and liquid xenon. Electrodes may be tested up to 30 cm$^2$ in area, while varying cathode-anode separation...

144. Giuliana Fiorillo (U. di Napoli, INFN): Darkside-20k and the future Liquid Argon Dark Matter program

Giuliana Fiorillo (Universita e sezione INFN di Napoli (IT))

23/02/2018, 17:30

Talk

Session 17

The next stage of the Darkside program for direct dark matter searches will involve a global collaboration from all the current Argon based experiments. DarkSide-20k has been recently approved and is based on a 20-tonne fiducial mass TPC with SiPM based photosensors and filled with Argon from an underground source. It is designed to have a background well below that from coherent scattering of...

143. Jim Dobson (CERN): Projected WIMP sensitivity of the LUX-ZEPLIN dark matter experiment

James Edward Young Dobson

23/02/2018, 17:45

Talk

Session 17

The LUX-ZEPLIN (LZ) experiment is a Generation 2 multi-tonne dark matter direct detection experiment that will operate 4850 feet underground at the Sanford Underground Research Facility in Lead, South Dakota. It will use a liquid xenon TPC with an active mass of 7 tonnes to search for the low energy signatures from interactions with WIMP dark matter in our galactic halo and other rare physics...

194. Luca Grandi (U. Chicago): XENONnT on the horizon

Luca Grandi (The University of Chicago)

23/02/2018, 18:00

Talk

Session 17

The XENON1T experiment is a search for dark matter, operating at Laboratori Nazionali del Gran Sasso since about one year and sensitive to possible rare interactions of dark matter particles with ordinary matter. The XENON1T experimental setup and infrastructure were designed to allow for a fast upgrade of its central detector, a two-phase xenon Time Projection Chamber (TPC). The XENONnT...

193. Ben M Loer (PNNL): Prospects for Low Mass WIMP Searches with SuperCDMS

Ben Loer (PNNL)

23/02/2018, 18:15

Talk

Session 17

SuperCDMS is the premiere experimental search for low mass Weakly Interacting Massive Particle (WIMP) dark matter in the O(1 GeV) mass range. In this talk I will begin with a brief preview of new results on the way from the third and final run of high voltage detectors at Soudan laboratory. The majority of this talk will focus on the upcoming SuperCDMS SNOLAB and will describe the overall...

198. Manfred Lindner(MPI for Nuclear Phys. Heidelberg): DARWIN - towards the ultimate dark matter detector

Manfred Lindner (Max Planck Institut fuer Kernphysik, Heidelberg, Germany)

23/02/2018, 18:30

Talk

Session 17

The DARWIN project aims at a 50 ton ultimate liquid xenon dark matter detector and this talk will cover R&D efforts as well as the physics potential. DARWIN will search WIMPs in a wide mass-range until neutrino interactions become an irreducible background. It can search in addition for axions and for neutrinoless double-beta decay of 136-Xe. It can also measure the low-energy solar neutrino...

199. Sven Vahsen (U. of Hawaii): Status of the CYGNUS Directional Dark Matter Detector Project

Sven Vahsen (University of Hawaii (US))

23/02/2018, 18:45

Talk

Session 17

With WIMP-nucleon scattering limits approaching the neutrino floor, and coherent neutrino-nucleon scattering experimentally established, there is renewed interest in directional detectors as a means to penetrate the neutrino floor. The CYGNUS collaboration aims to deploy multiple gas Time Projection Chambers (TPCs) to accomplish this. I will review recent work carried out by the collaboration,...

189. Andrew Renshaw (U. of Houston): URANIA and ARIA, Low radioactivity Argon for rare event searches

Andrew Renshaw (U. of Houston)

23/02/2018, 19:00

Talk

Session 18

The DarkSide-50 two-phase liquid argon (LAr) detector has been searching for weakly interacting massive particle (WIMP) dark matter for more than three years, and during last two and a half years has been successfully operating the detector with argon that was extracted from underground CO$_2$ wells in Cortez, Colorado in the US. This source of argon has been long shielded from cosmic rays...

190. Aldo Ianni (Director, Canfranc): Dark Matter program at the LSC and synergy between DULs

Aldo Ianni (Canfranc)

23/02/2018, 19:15

Talk

Session 18

The activity on direct search for dark matter at the Laboratorio Subterraneo de Canfranc (LSC) is reviewed. At LSC, presently, ANAIS is in data taking to probe the DAMA/LIBRA longstanding result on annual modulation. The two-phase ton-scale liquid argon detector ArDM is in data taking. ArDM will turn into a crucial facility for DarkSide-20k by the end of 2018. More R&D activities are underway...

188. Nigel Smith (Director, SNOLAB): Development of Deep Underground Facilities

Nigel Smith (SNOLab)

23/02/2018, 19:30

Talk

Session 18

Direct searches for dark matter candidates require deep underground research facilities and specialised low background infrastructure and associated capabilities. As the dark matter community develops ever more sensitive detectors, the requirements placed on deep underground facilities and these capabilities become even more stringent. This talk will review recent progress within deep...