Spin-Dependent Cross Section Limits for Dark Matter Particle (${{\mathit X}^{0}}$) on Neutron

For ${\mathit m}_{{{\mathit X}^{0}}}$ = 100 GeV

INSPIRE   PDGID:
S030DN2
VALUE (pb) CL% DOCUMENT ID TECN  COMMENT
• • We do not use the following data for averages, fits, limits, etc. • •
$<1 \times 10^{-5}$ 90 1
HUANG
2022
PNDX SD DM limits
$<0.15$ 2
FELIZARDO
2020
SMPL WIMPs via SIMPLE
$<1.5 \times 10^{-5}$ 90 3
APRILE
2019A
 XE1T ${}^{}\mathrm {Xe}$, SD
$<4 \times 10^{-3}$ 90 4
SUZUKI
2019
XMAS ${}^{129}\mathrm {Xe}$, inelastic
$<2 \times 10^{-5}$ 90 5
XIA
2019A
 PNDX SD WIMP on ${}^{}\mathrm {Xe}$
$<2.5 \times 10^{-5}$ 90 6
AKERIB
2017A
 LUX ${}^{}\mathrm {Xe}$
$<7 \times 10^{-5}$ 90 7
FU
2017
PNDX SD WIMP on ${}^{}\mathrm {Xe}$
$<0.1$ 90
FELIZARDO
2014
SMPL C$_{2}$ClF$_{5}$
$<0.05$ 90 8
UCHIDA
2014
XMAS ${}^{129}\mathrm {Xe}$, inelastic
$<4.68 \times 10^{-4}$ 90 9
APRILE
2013
X100 ${}^{}\mathrm {Xe}$
$<0.01$ 90
AKIMOV
2012
ZEP3 ${}^{}\mathrm {Xe}$
10
FELIZARDO
2010
SMPL C$_{2}$ClF$_{3}$
$<0.02$ 90
AHMED
2009
CDM2 ${}^{}\mathrm {Ge}$
$<0.01$ 90
LEBEDENKO
2009A
 ZEP3 ${}^{}\mathrm {Xe}$
$<100$ 90
LIN
2009
TEXO ${}^{}\mathrm {Ge}$
$<0.01$ 90
ANGLE
2008A
 XE10 ${}^{}\mathrm {Xe}$
$<0.05$ 90 11
BEDNYAKOV
2008
RVUE ${}^{}\mathrm {Ge}$
$<0.08$ 90
ALNER
2007
ZEP2 ${}^{}\mathrm {Xe}$
$<6$ 90
LEE
2007A
 KIMS CsI
$<0.07$ 90 12
AKERIB
2006
CDMS ${}^{73}\mathrm {Ge}$, ${}^{29}\mathrm {Si}$
$<30$ 90
SHIMIZU
2006A
 CNTR F (CaF$_{2}$)
$<10$ 90
ALNER
2005
NAIA NaI
$<30$ 90
BARNABE-HEIDE..
2005
PICA F (C$_{4}F_{10}$)
$<0.7$ 90
BENOIT
2005
EDEL ${}^{73}\mathrm {Ge}$
$<0.2$ 13
GIULIANI
2005A
 RVUE
$<1.5$ 90
KLAPDOR-KLEIN..
2005
HDMS ${}^{73}\mathrm {Ge}$ (enriched)
14
GIULIANI
2004
RVUE
15
GIULIANI
2004A
 RVUE
16
MIUCHI
2003
BOLO LiF
$<800$ 90
TAKEDA
2003
BOLO NaF
1  HUANG 2022 search for SD DM scatter on ${}^{}\mathrm {Xe}$; no signal observed; limits placed in ${\mathit \sigma (}$ ${{\mathit \chi}}{{\mathit n}}{)}$ vs. m(DM) plane; quoted limit is for m(DM) = 100 GeV.
2  FELIZARDO 2020 presents 2014 SIMPLE bounds on WIMP DM using ${}^{}\mathrm {C}_{2}{}^{}\mathrm {Cl}{}^{}\mathrm {F}_{5}$ target .
3  APRILE 2019A search for SD WIMP scatter on 1 t yr ${}^{}\mathrm {Xe}$; no signal, limits placed in ${{\mathit \sigma}^{SD}}$( ${{\mathit \chi}}{{\mathit n}}$ ) vs. m(${{\mathit \chi}}$) plane for m $\sim{}$ $6 - 1000$ GeV.
4  SUZUKI 2019 search in single phase liquid xenon detector for inelastic scattering ${{\mathit X}^{0}}$ ${+}$ ${}^{129}\mathrm {Xe}$ $\rightarrow$ ${{\mathit X}^{0}}{+}$ ${}^{129}\mathrm {Xe}^{*}$ (39.58 keV) ; no signal: require ${\mathit \sigma (}$ ${{\mathit \chi}}{{\mathit n}}{)}{}^{SD}$ $<$ $4 \times 10^{-3}$ pb for m(${{\mathit \chi}}$) = 100 GeV.
5  XIA 2019A search for WIMP scatter on ${}^{}\mathrm {Xe}$ in PandaX-II; limits placed in ${{\mathit \sigma}^{SD}}$( ${{\mathit \chi}}{{\mathit n}}$ ) vs. m(${{\mathit \chi}}$) plane for m(${{\mathit \chi}}$) $\sim{}$ $5 - 1 \times 10^{5}$ GeV.
6  AKERIB 2017A search for SD WIMP scatter on ${}^{}\mathrm {Xe}$ with 129.5 kg yr exposure; limits placed in ${{\mathit \sigma}^{SD}}$( ${{\mathit \chi}}{{\mathit n}}$ ) vs. m(${{\mathit \chi}}$) plane for m(${{\mathit \chi}}$) $\sim{}$ $5 - 1 \times 10^{5}$ GeV.
7  FU 2017 search for SD WIMP scatter on ${}^{}\mathrm {Xe}$; limits set in ${{\mathit \sigma}^{SD}}$( ${{\mathit \chi}}{{\mathit n}}$ ) vs. m(${{\mathit \chi}}$) plane for m(${{\mathit \chi}}$) $\sim{}$ $4 - 1 \times 10^{3}$ GeV.
8  UCHIDA 2014 derived limit from search for inelastic scattering ${{\mathit X}^{0}}$ ${+}$ ${}^{129}\mathrm {Xe}$ $\rightarrow$ ${{\mathit X}^{0}}{+}$ ${}^{129}\mathrm {Xe}$(39.58 keV).
9  The value has been provided by the authors. See also APRILE 2014A.
10  See their Fig. 3 for limits on spin-dependent neutron couplings for ${{\mathit X}^{0}}$ mass of 50 GeV.
11  BEDNYAKOV 2008 reanalyze KLAPDOR-KLEINGROTHAUS 2005 and BAUDIS 2001 data.
12  See also AKERIB 2005 .
13  GIULIANI 2005A analyze available data and give combined limits.
14  GIULIANI 2004 reanalyze COLLAR 2000 data and give limits for spin-dependent ${{\mathit X}^{0}}$-neutron coupling.
15  GIULIANI 2004A give limits for spin-dependent ${{\mathit X}^{0}}$-neutron couplings from existing data.
16  MIUCHI 2003 give model-independent limit for spin-dependent ${{\mathit X}^{0}}$-proton and neutron cross sections. See their Fig. 5.
References:
HUANG 2022
PL B834 137487 Constraints on the axial-vector and pseudo-scalar mediated WIMP-nucleus interactions from PandaX-4T experiment
FELIZARDO 2020
IJMP A35 2030005 A SIMPLE review
APRILE 2019A
PRL 122 141301 Constraining the spin-dependent WIMP-nucleon cross sections with XENON1T
SUZUKI 2019
ASP 110 1 Search for WIMP-$^{129}$Xe inelastic scattering with particle identification in XMASS-I
XIA 2019A
PL B792 193 PandaX-II Constraints on Spin-Dependent WIMP-Nucleon Effective Interactions
AKERIB 2017A
PRL 118 251302 Limits on Spin-Dependent WIMP-Nucleon Cross Section Obtained from the Complete LUX Exposure
FU 2017
PRL 118 071301 Spin-Dependent Weakly-Interacting-Massive-Particle-Nucleon Cross Section Limits from First Data of PandaX-II Experiment
Also
PRL 120 049902 (errat.) Spin-Dependent Weakly-Interacting-Massive-Particle?Nucleon Cross Section Limits from First Data of PandaX-II Experiment
FELIZARDO 2014
PR D89 072013 The SIMPLE Phase II Dark Matter Search
UCHIDA 2014
PTEP 2014 063C01 Search for Inelastic WIMP Nucleus Scattering on ${}^{129}\mathrm {Xe}$ in Data from the XMASS-I Experiment
APRILE 2013
PRL 111 021301 Limits on Spin-Dependent WIMP-Nucleon Cross Sections from 225 Live Days of XEENON100 Data
AKIMOV 2012
PL B709 14 WIMP-Nucleon Cross-Section Results from the Second Science Run of ZEPLIN-II
FELIZARDO 2010
PRL 105 211301 First Results of the Phase II SIMPLE Dark Matter Search
AHMED 2009
PRL 102 011301 Search for Weakly Interacting Massive Particles with the First Five-Tower Data from the Cryogenic Dark Matter Search at the Soudan Underground Laboratory
LEBEDENKO 2009A
PRL 103 151302 Limits on the Spin-Dependent WIMP-Nucleon Cross Sections from the First Science Run of the ZEPLIN-III Experiment
LIN 2009
PR D79 061101 New Limits on Spin-Independent and Spin-Dependent Couplings of Low-Mass WIMP Dark Matter with a Germanium Detector at a Threshold of 220 eV
ANGLE 2008A
PRL 101 091301 Limits on Spin-Dependent WIMP-Nucleon Cross Sections from the XENON10 Experiment
BEDNYAKOV 2008
PAN 71 111 New Constraints on Spin-Dependent WIMP-Neutron Interactions from HDMS with Natural ${}^{}\mathrm {Ge}$ and ${}^{73}\mathrm {Ge}$
ALNER 2007
PL B653 161 Limits on Spin-Dependent WIMP-Nucleon Cross-Sections from the First ZEPLIN-II Data
LEE 2007A
PRL 99 091301 Limits on Interactions between Weakly Interacting Massive Particles and Nucleons Obtained with CsI(Tl) Crystal Detectors
AKERIB 2006
PR D73 011102 Limits on Spin-dependent WIMP $−$ Nucleon Interactions from the Cryogenic Dark Matter Search
SHIMIZU 2006A
PL B633 195 Dark Matter Search Experiment with CaF$_{2}$(Eu) scintillator at Kamioka Observatory
ALNER 2005
PL B616 17 Limits on WIMP Cross-Sections from the NAIAD Experiment at the Boulby Underground Laboratory
BARNABE-HEIDER 2005
PL B624 186 Improved Spin-Dependent Limits from the PICASSO Dark Matter Search Experiment
BENOIT 2005
PL B616 25 Sensitivity of the EDELWEISS WIMP Search to Spin-Dependent Interactions
GIULIANI 2005A
PR D71 123503 Model-Independent Limits from Spin-Dependent WIMP Dark Matter Experiments
KLAPDOR-KLEINGROTHAUS 2005
PL B609 226 New Limits on Spin-Dependent Weakly Interacting Massive Particle (WIMP) Nucleon Coupling
GIULIANI 2004A
PRL 93 161301 Model-Independent Assessment of Current Direct Searches for Spin-Dependent Dark Matter
GIULIANI 2004
PL B588 151 Exclusion Limits on Spin Dependent WIMP-Nucleon Couplings from the SIMPLE Experiment
MIUCHI 2003
ASP 19 135 First Results from Dark Matter Search Experiment with LiF Bolometer at Kamioka Underground Laboratory
TAKEDA 2003
PL B572 145 Limits on the WIMP$−$Nucleon Coupling Coefficients from Dark Matter Search Experiment with NaF Bolometer