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M

M. F. Marzioni

Researcher at University of Edinburgh

Publications -  40
Citations -  4330

M. F. Marzioni is an academic researcher from University of Edinburgh. The author has contributed to research in topics: Dark matter & Xenon. The author has an hindex of 21, co-authored 38 publications receiving 3574 citations.

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Journal ArticleDOI

Results from a Search for Dark Matter in the Complete LUX Exposure

D. S. Akerib, +100 more
- 11 Jan 2017 - 
TL;DR: This search yields no evidence of WIMP nuclear recoils and constraints on spin-independent weakly interacting massive particle (WIMP)-nucleon scattering using a 3.35×10^{4} kg day exposure of the Large Underground Xenon experiment are reported.
Journal ArticleDOI

Improved limits on scattering of weakly interacting massive particles from reanalysis of 2013 LUX data

D. S. Akerib, +100 more
- 20 Apr 2016 - 
TL;DR: This new analysis incorporates several advances: single-photon calibration at the scintillation wavelength, improved event-reconstruction algorithms, a revised background model including events originating on the detector walls in an enlarged fiducial volume, and new calibrations from decays of an injected tritium β source and from kinematically constrained nuclear recoils down to 1.1 keV.
Journal ArticleDOI

Limits on Spin-Dependent WIMP-Nucleon Cross Section Obtained from the Complete LUX Exposure

D. S. Akerib, +130 more
- 23 Jun 2017 - 
TL;DR: The spin-dependent WIMP-neutron limit is the most sensitive constraint to date.
ReportDOI

LUX-ZEPLIN (LZ) Conceptual Design Report

D. S. Akerib, +194 more
- 09 Sep 2015 - 
TL;DR: The design and performance of the LUX-ZEPLIN (LZ) detector is described as of March 2015 in this Conceptual Design Report as mentioned in this paper. And the LZ detector will be located at the Sanford Underground Research Facility in South Dakota.
Journal ArticleDOI

Results on the Spin-Dependent Scattering of Weakly Interacting Massive Particles on Nucleons from the Run 3 Data of the LUX Experiment.

D. S. Akerib, +100 more
- 10 Feb 2016 - 
TL;DR: The spin-dependent WIMP-neutron limit is the most sensitive constraint to date.