1. Carter Hall, University of Maryland August 7, 2015 DPF 2015, Ann Arbor, MI The LZ WIMP dark matter search

2. University of Alabama University at Albany SUNY Berkeley Lab (LBNL) University of California, Berkeley Brookhaven National Laboratory Brown University University of California, Davis Fermi National Accelerator Laboratory Kavli Institute for Particle Astrophysics & Cosmology Lawrence Livermore National Laboratory University of Maryland University of Michigan Northwestern University University of Rochester LIP Coimbra (Portugal)University of California, Santa Barbara MEPhI (Russia)University of South Dakota Edinburgh University (UK)South Dakota School of Mines & Technology University of Liverpool (UK)South Dakota Science and Technology Authority Imperial College London (UK)SLAC National Accelerator Laboratory University College London (UK)Texas A&M University of Oxford (UK)Washington University STFC Rutherford Appleton Laboratories (UK)University of Wisconsin University of Sheffield (UK)Yale University 1 LZ = LUX + ZEPLIN 31 institutions currently About 180 people Continuing to expand collaboration

3. Scale-up LUX fiducial mass by 50 2 LUX LZ: Total Xe - 10 Ton Active Xe – 7 Ton Fiducial Xe – 5.6 Ton LUX

4. LZ Overview 3 Xe TPC Gd-doped liquid scintillator outer detector 100 kV high voltage existing LUX water shield

5. Sanford Underground Research Facility Davis Cavern 1480 m (4200 mwe) LZ in LUX Water Tank South Dakota USA 4 LUX removed by early 2017 Water tank kept

6. Dual-phase liquid xenon TPC 5 247 PMT 241 PMT 180 total Skin PMT

7. Outer Detector  Essential to utilize most Xe, maximize fiducial volume  Segmented tanks – installation constraints (shaft, water tank)  Gadolinium - loaded scintillator, LAB, OK underground  Daya Bay legacy, scintillator & tanks (and people)  Advanced conceptual design 6 Layout of the LZ outer detector system, which consists of nine acrylic tanks. The largest are the four quarter-tanks on the sides. Two tanks cover the top, and three the bottom. The exploded view on the right shows the displacer cylinders placed between the acrylic vessels and the cryostat.

8. Backgrounds with and without outer detector Fid. Mass 3.8 T Fid. Mass 5.6 T 2.2 bkg events, 1,000 days LXe TPC only w/LXe skin, Outer Det. 7

9. Cryostat Vessels  UK responsibility  Low background titanium chosen direction SS alternative advanced as backup  Ti slab for all vessels(and other parts) received and assayed  Contributes < 0.05 NR+ER counts in fiducial volume in 1,000 days after cuts 8

10. High Voltage Studies 9 ✦ Cathode voltage design goal: 200 kV (provides margin) ✦ LZ nominal operating goal: 100 kV (  700 V/cm) ✦ Feedthrough prototype tested to 200 kV ✦ Prototype TPC for 100 kg LXe system fabrication starting ✦ HV prototyping expanding at Berkeley Prototype of highest E-field region tested in LAr Wire grid tests ongoing

11.  Demonstrated in LUX.  DD Neutron Generator (Nuclear Recoils)  Tritiated Methane (Electron Recoils)  Additional Sources e.g. YBe Source for low energy (Nuclear Recoils) 10 Monochromatic 2.5 MeV neutrons Tritium Beta Spectrum Measured in LUX C H H H T Calibrations

12. Xe HeXe LN cryocooler Xe/Kr chromatography Xe recovery Xe storage cooled Kr trap charcoal 500 kg condensers thermosyphon 16 kg 500 SLPM He (Fluitron compressor) filter U RGA sampling feed/purge ~ 120 min 100 mbar 500 mbar 250 SLPM He (Roots booster) 10 mbar 200 kg capacity 24 hour cycle (per condenser) 50 SLPM Xe 80 bar2 bar ~ 120 min automation of all 3 cycles Kr removal via chromatography 10 tons / 60 days @ 200 kg/day; 85% uptime 250 SLPM He (dry backing pump)

13. LZ Sensitivity (5.6 Tonnes, 1000 live days) 12 2×10 -48 cm 2

14. Time Evolution 13 LUX LZ 2×10 -48 cm 2 Ge, NaI no discrimination Ge, w/discrim. LXe, w/discrim. ZEPLIN-III XENON 1T

15. YearMonthActivity 2012MarchLZ (LUX-ZEPLIN) collaboration formed MayFirst Collaboration Meeting SeptemberDOE CD-0 for G2 dark matter experiments 2013NovemberLZ R&D report submitted 2014JulyLZ Project selected in US and UK 2015AprilDOE CD-1/3a approval, similar in UK Begin long-lead procurements(Xe, PMT, cryostat) 2016AprilDOE CD-2/3b approval, baseline, all fab starts 2017JuneBegin preparations for surface assembly @ SURF 2018JulyBegin underground installation 2019FebBegin commissioning 14 Timeline

16. 15 Summary  LZ Project well underway, with procurement of Xe, PMTs and cryostat vessels started  Extensive prototype program underway  LZ benefits from the excellent LUX calibration techniques and understanding of background

17. 16 Extra Slides

18. LZ Sensitivity 17

19. Status and outlook for WIMP detection & XENONNT

20. Running Time  Sensitivity vs. running time.  1,000 days is the nominal.  Baseline backgrounds  Rapid improvement in sensitivity  Potential to eventually get to  1 x 10 -48 cm 2 19 Requirement

21. Integrated Xe purity screening via mass spectrometry  Have a sampling program to instantly assay the Kr removal at SLAC and continuously assay in situ during physics running at SURF.  Sensitivity Kr, Ar, O 2, N 2, He, CH4 in real time. 20 LUX Xenon Sampling

22. WIMP 

23. Nuclear recoil spectra From: arXiv:1107.1295 A 2 dependence

24. 23 LUX Run 3 WIMP search data Phys. Rev. Lett 112 (2014) 091303 Electron recoil band nuclear recoil band