pdgLive

${{\mathit \rho}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit \pi}_{{T}}}$ $\rightarrow$ ${{\mathit \ell}}{{\mathit \nu}}{{\mathit q}}{{\overline{\mathit q}}}$

AAD

2016

ATLS

color octet vector resonance

$> 2400$

⁴

KHACHATRYAN

2016

CMS

top-color ${{\mathit Z}^{\,'}}$

⁵

AAD

2015

ATLS

${{\mathit h}}$ $\rightarrow$ ${{\mathit \pi}_{{v}}}{{\mathit \pi}_{{v}}}$

$>1800$

⁶

AAD

2015

ATLS

top-color ${{\mathit Z}^{\,'}}$

⁷

AAD

2015

ATLS

${{\mathit p}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit \rho}_{{T}}}$ / ${{\mathit a}_{{1T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit h}}$ or ${{\mathit Z}}{{\mathit h}}$

⁸

AAD

2015

ATLS

${{\mathit h}}$ $\rightarrow$ ${{\mathit \pi}_{{v}}}{{\mathit \pi}_{{v}}}$

⁹

AAIJ

2015

LHCB

${{\mathit h}}$ $\rightarrow$ ${{\mathit \pi}_{{v}}}{{\mathit \pi}_{{v}}}$

$> 1140$

¹⁰

KHACHATRYAN

2015

CMS

${{\mathit \rho}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit Z}}$

¹¹

KHACHATRYAN

2015

CMS

${{\mathit H}}$ $\rightarrow$ ${{\mathit \pi}_{{v}}}{{\mathit \pi}_{{v}}}$

$\text{none 200 - 700, 750 - 890}$

¹²

AAD

2014

ATLS

${{\mathit p}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit \omega}_{{T}}}$ $\rightarrow$ ${{\mathit Z}}{{\mathit \gamma}}$

$\text{none 275 - 960}$

¹²

AAD

2014

ATLS

${{\mathit p}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit a}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit \gamma}}$

¹³

AAD

2014

ATLS

color singlet techni-vector

$> 703$

¹⁴

AAD

2013

ATLS

${{\mathit p}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit a}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit \gamma}}$

$> 494$

¹⁵

AAD

2013

ATLS

${{\mathit p}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit \omega}_{{T}}}$ $\rightarrow$ ${{\mathit Z}}{{\mathit \gamma}}$

$\text{none 500 - 1740}$

¹⁶

AAD

2013

ATLS

top-color ${{\mathit Z}^{\,'}}$

$> 1300$

¹⁷

CHATRCHYAN

2013

CMS

top-color ${{\mathit Z}^{\,'}}$

$> 2100$

¹⁶

CHATRCHYAN

2013

CMS

top-color ${{\mathit Z}^{\,'}}$

¹⁸

BAAK

2012

RVUE

QCD-like technicolor

$\text{none 167 - 687}$

¹⁹

CHATRCHYAN

2012

CMS

${{\mathit \rho}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit Z}}$

$> 805$

¹⁶

AALTONEN

2011

CDF

top-color ${{\mathit Z}^{\,'}}$

$> 805$

¹⁶

AALTONEN

2011

CDF

top-color ${{\mathit Z}^{\,'}}$

²⁰

CHIVUKULA

2011

RVUE

top-Higgs

²¹

CHIVUKULA

2011

RVUE

techini-${{\mathit \pi}}$

²²

AALTONEN

2010

CDF

${{\mathit p}}$ ${{\overline{\mathit p}}}$ $\rightarrow$ ${{\mathit \rho}_{{T}}}$ $/$ ${{\mathit \omega}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit \pi}_{{T}}}$

$\text{none 208 - 408}$

²³

ABAZOV

2010

${{\mathit \rho}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit Z}}$

²⁴

ABAZOV

2007

${{\mathit p}}$ ${{\overline{\mathit p}}}$ $\rightarrow$ ${{\mathit \rho}_{{T}}}$ $/$ ${{\mathit \omega}_{{T}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit \pi}_{{T}}}$

$> 280$

²⁵

ABULENCIA

2005

CDF

${{\mathit \rho}_{{{T}}}}$ $\rightarrow$ ${{\mathit e}^{+}}{{\mathit e}^{-}}$ , ${{\mathit \mu}^{+}}{{\mathit \mu}^{-}}$

²⁶

CHEKANOV

2002

ZEUS

color octet techni-${{\mathit \pi}}$

$>207$

²⁷

ABAZOV

2001

${{\mathit \rho}_{{{T}}}}$ $\rightarrow$ ${{\mathit e}^{+}}{{\mathit e}^{-}}$

$\text{none 90 - 206.7}$

²⁸

ABDALLAH

2001

DLPH

${{\mathit e}^{+}}$ ${{\mathit e}^{-}}$ $\rightarrow$ ${{\mathit \rho}_{{{T}}}}$

²⁹

AFFOLDER

2000

CDF

color-singlet techni-${{\mathit \rho}}$, ${{\mathit \rho}_{{{T}}}}$ $\rightarrow$ ${{\mathit W}}{{\mathit \pi}_{{{T}}}}$ , 2${{\mathit \pi}_{{{T}}}}$

$>600$

³⁰

AFFOLDER

2000

CDF

color-octet techni-${{\mathit \rho}}$, ${{\mathit \rho}_{{{T8}}}}$ $\rightarrow$ 2 ${{\mathit \pi}_{{LQ}}}$

$\text{none 350 - 440}$

³¹

ABE

1999

CDF

color-octet techni-${{\mathit \rho}}$, ${{\mathit \rho}_{{{T8}}}}$ $\rightarrow$ ${{\overline{\mathit b}}}{{\mathit b}}$

³²

ABE

1999

CDF

techni-${{\mathit \omega}}$, ${{\mathit \omega}_{{{T}}}}$ $\rightarrow$ ${{\mathit \gamma}}{{\overline{\mathit b}}}{{\mathit b}}$

$\text{none 260 - 480}$

³³

ABE

1997

CDF

color-octet techni-${{\mathit \rho}}$, ${{\mathit \rho}_{{{T8}}}}$ $\rightarrow$ 2jets

AAD 2020AM search for a top-color ${{\mathit Z}^{\,'}}$ decaying to ${{\mathit t}}{{\overline{\mathit t}}}$ in ${{\mathit p}}{{\mathit p}}$ collisions at $\sqrt {s }$ = 13 TeV. The quoted limit is for ${\Gamma}_{{\mathit Z}^{\,'}}/M_{{{\mathit Z}^{\,'}}}$ = 0.01. The limit becomes M$_{{{\mathit Z}^{\,'}}}$ $>$ 4700 GeV for ${\Gamma}_{{\mathit Z}^{\,'}}/M_{{{\mathit Z}^{\,'}}}$ = 0.03.

²	AAD 2020W search for techni-${{\mathit \rho}}$ decaying to ${{\mathit \pi}_{{T}}}{{\mathit W}}$ in ${{\mathit p}}{{\mathit p}}$ collisions at $\sqrt {s }$ = 13 TeV. See their Fig. 5a for limits on $\sigma \cdot{}B$.

AAD 2016W search for color octet vector resonance decaying to ${{\mathit b}}{{\mathit B}}$ in ${{\mathit p}}{{\mathit p}}$ collisions at $\sqrt {s }$ = 8 TeV. The vector like quark ${{\mathit B}}$ is assumed to decay to ${{\mathit b}}{{\mathit H}}$ . See their Fig.3 and Fig.4 for limits on $\sigma \cdot{}\mathit B$.

⁴

KHACHATRYAN 2016E search for top-color ${{\mathit Z}^{\,'}}$ decaying to ${{\mathit t}}{{\overline{\mathit t}}}$ . The quoted limit is for ${\Gamma}_{{\mathit Z}^{\,'}}/{\mathit m}_{{{\mathit Z}^{\,'}}}$ = 0.012. Also exclude ${\mathit m}_{{{\mathit Z}^{\,'}}}$ $<$ 2.9 TeV for wider topcolor ${{\mathit Z}^{\,'}}$ with ${\Gamma}_{{\mathit Z}^{\,'}}/{\mathit m}_{{{\mathit Z}^{\,'}}}$ = 0.1.

⁵	AAD 2015AB search for long-lived hidden valley ${{\mathit \pi}_{{v}}}$ particles which are produced in pairs by the decay of a scalar boson. ${{\mathit \pi}_{{v}}}$ is assumed to decay into dijets. See their Fig. 10 for the limit on ${{\mathit \sigma}}\mathit B$.

⁶	AAD 2015AO search for top-color ${{\mathit Z}^{\,'}}$ decaying to ${{\mathit t}}{{\overline{\mathit t}}}$ . The quoted limit is for ${\Gamma}_{{\mathit Z}^{\,'}}/{\mathit m}_{{{\mathit Z}^{\,'}}}$ = 0.012.

⁷	AAD 2015BB search for minimal walking technicolor (MWT) isotriplet vector and axial-vector resonances decaying to ${{\mathit W}}{{\mathit h}}$ or ${{\mathit Z}}{{\mathit h}}$ . See their Fig. 3 for the exclusion limit in the MWT parameter space.

⁸	AAD 2015Q search for long-lived hidden valley ${{\mathit \pi}_{{v}}}$ particles which are produced in pairs by the decay of scalar boson. ${{\mathit \pi}_{{v}}}$ is assumed to decay into dijets. See their Fig. 5 and Fig. 6 for the limit on $\sigma \mathit B$.

⁹	AAIJ 2015AN search for long-lived hidden valley ${{\mathit \pi}_{{v}}}$ particles which are produced in pairs by the decay of scalar boson with a mass of 120GeV. ${{\mathit \pi}_{{v}}}$ is assumed to decay into dijets. See their Fig. 4 for the limit on $\sigma \mathit B$.

¹⁰

KHACHATRYAN 2015C search for a vector techni-resonance decaying to ${{\mathit W}}{{\mathit Z}}$ . The limit assumes ${{\mathit M}}_{{{\mathit \pi}_{{T}}}}$ = (3/4) ${{\mathit M}}_{{{\mathit \rho}_{{T}}}}$ $−$ 25 GeV. See their Fig.3 for the limit in ${{\mathit M}}_{{{\mathit \pi}_{{T}}}}−{{\mathit M}}_{{{\mathit \rho}_{{T}}}}$ plane of the low scale technicolor model.

¹¹

KHACHATRYAN 2015W search for long-lived hidden valley ${{\mathit \pi}_{{v}}}$ particles which are produced in pairs in the decay of heavy higgs boson ${{\mathit H}}$. ${{\mathit \pi}_{{v}}}$ is assumed to decay into ${{\mathit \ell}^{+}}{{\mathit \ell}^{-}}$ . See their Fig. 7 and Fig. 8 for the limits on $\sigma \mathit B$.

¹²

AAD 2014AT search for techni-${{\mathit \omega}}$ and techni-${{\mathit a}}$ resonances decaying to ${{\mathit V}}{{\mathit \gamma}}$ with ${{\mathit V}}$ = ${{\mathit W}}$( $\rightarrow$ ${{\mathit \ell}}{{\mathit \nu}}$ ) or ${{\mathit Z}}$( $\rightarrow$ ${{\mathit \ell}^{+}}{{\mathit \ell}^{-}}$ ).

¹³	AAD 2014V search for vector techni-resonances decaying into electron or muon pairs in ${{\mathit p}}{{\mathit p}}$ collisions at $\sqrt {s }$ = 8 TeV. See their table IX for exclusion limits with various assumptions.

¹⁴	AAD 2013AN search for vector techni-resonance ${{\mathit a}_{{T}}}$ decaying into ${{\mathit W}}{{\mathit \gamma}}$ .

¹⁵	AAD 2013AN search for vector techni-resonance ${{\mathit \omega}_{{T}}}$ decaying into ${{\mathit Z}}{{\mathit \gamma}}$ .

¹⁶	Search for top-color ${{\mathit Z}^{\,'}}$ decaying to ${{\mathit t}}{{\overline{\mathit t}}}$ . The quoted limit is for ${\Gamma}_{{\mathit Z}^{\,'}}/{\mathit m}_{{{\mathit Z}^{\,'}}}$ = 0.012.

¹⁷	CHATRCHYAN 2013AP search for top-color leptophobic ${{\mathit Z}^{\,'}}$ decaying to ${{\mathit t}}{{\overline{\mathit t}}}$ . The quoted limit is for ${\Gamma}_{{\mathit Z}^{\,'}}/{\mathit m}_{{{\mathit Z}^{\,'}}}$ = 0.012.

¹⁸	BAAK 2012 give electroweak oblique parameter constraints on the QCD-like technicolor models. See their Fig. 28.

¹⁹

CHATRCHYAN 2012AF search for a vector techni-resonance decaying to ${{\mathit W}}{{\mathit Z}}$ . The limit assumes $\mathit M_{{{\mathit \pi}_{{T}}}}$= (3/4) $\mathit M_{{{\mathit \rho}_{{T}}}}−$ 25$~$GeV. See their Fig. 3 for the limit in $\mathit M_{{{\mathit \pi}_{{T}}}}−\mathit M~_{{{\mathit \rho}_{{T}}}}$ plane of the low scale technicolor model.

²⁰	Using the LHC limit on the Higgs boson production cross section, CHIVUKULA 2011 obtain a limit on the top-Higgs mass $>$ 300 GeV at 95$\%$ CL assuming 150 GeV top-pion mass.

²¹

Using the LHC limit on the Higgs boson production cross section, CHIVUKULA 2011A obtain a limit on the techinipion mass ruling out the region 110 GeV $<$ ${\mathit m}_{{{\mathit P}}}$ $<$ 2${\mathit m}_{{{\mathit t}}}$. Existence of color techni-fermions, top-color mechanism, and ${{\mathit N}_{{TC}}}{}\geq{}$ 3 are assumed.

²²

AALTONEN 2010I search for the vector techni-resonances (${{\mathit \rho}_{{T}}}$, ${{\mathit \omega}_{{T}}}$) decaying into ${{\mathit W}}{{\mathit \pi}_{{T}}}$ with ${{\mathit W}}$ $\rightarrow$ ${{\mathit \ell}}{{\mathit \nu}}$ and ${{\mathit \pi}_{{T}}}$ $\rightarrow$ ${{\mathit b}}{{\overline{\mathit b}}}$ , ${{\mathit b}}{{\overline{\mathit c}}}$ , or ${{\mathit b}}{{\overline{\mathit u}}}$ . See their Fig.$~$3 for the exclusion plot in ${{\mathit M}}_{{{\mathit \pi}_{{T}}}}−{{\mathit M}}_{{{\mathit \rho}_{{T}}}}$ plane.

²³	ABAZOV 2010A search for a vector techni-resonance decaying into ${{\mathit W}}{{\mathit Z}}$ . The limit assumes ${{\mathit M}}_{{{\mathit \rho}_{{T}}}}<$ ${{\mathit M}}_{{{\mathit \pi}_{{T}}}}$ + ${{\mathit M}}_{W}$.

²⁴

ABAZOV 2007I search for the vector techni-resonances (${{\mathit \rho}_{{T}}}$, ${{\mathit \omega}_{{T}}}$) decaying into ${{\mathit W}}{{\mathit \pi}_{{T}}}$ with ${{\mathit W}}$ $\rightarrow$ ${{\mathit e}}{{\mathit \nu}}$ and ${{\mathit \pi}_{{T}}}$ $\rightarrow$ ${{\mathit b}}{{\overline{\mathit b}}}$ or ${{\mathit b}}{{\overline{\mathit c}}}$ . See their Fig. 2 for the exclusion plot in ${{\mathit M}}_{{{\mathit \pi}_{{T}}}}−{{\mathit M}}_{{{\mathit \rho}_{{T}}}}$ plane.

²⁵	ABULENCIA 2005A search for resonances decaying to electron or muon pairs in ${{\mathit p}}{{\overline{\mathit p}}}$ collisions. at $\sqrt {s }$ = 1.96 TeV. The limit assumes Technicolor-scale mass parameters ${{\mathit M}_{{V}}}$ = ${{\mathit M}_{{A}}}$ = 500 GeV.

²⁶

CHEKANOV 2002B search for color octet techni-${{\mathit \pi}}{{\mathit P}}$ decaying into dijets in ${{\mathit e}}{{\mathit p}}$ collisions. See their Fig.$~$5 for the limit on $\sigma\mathrm {( {{\mathit e}} {{\mathit p}} \rightarrow {{\mathit e}} {{\mathit P}} {{\mathit X}} )}\cdot{}$B( ${{\mathit P}}$ $\rightarrow$ 2 ${{\mathit j}}$ ).

²⁷

ABAZOV 2001B searches for vector techni-resonances (${{\mathit \rho}_{{{T}}}},{{\mathit \omega}_{{{T}}}}$) decaying to ${{\mathit e}^{+}}{{\mathit e}^{-}}$ . The limit assumes $\mathit M_{{{\mathit \rho}_{{{T}}}}}$ = $\mathit M_{{{\mathit \omega}_{{{T}}}}}$ $<\mathit M_{{{\mathit \pi}_{{{T}}}}}+\mathit M_{{{\mathit W}}}$.

²⁸

The limit is independent of the ${{\mathit \pi}_{{{T}}}}$ mass. See their Fig.$~$9 and Fig.$~$10 for the exclusion plot in the $\mathit M_{{{\mathit \rho}_{{{T}}}}}-\mathit M_{{{\mathit \pi}_{{{T}}}}}$ plane. ABDALLAH 2001 limit on the techni-pion mass is $\mathit M_{{{\mathit \pi}_{{{T}}}}}>79.8$ GeV for $\mathit N_{\mathit D}$=2, assuming its point-like coupling to gauge bosons.

²⁹

AFFOLDER 2000F search for ${{\mathit \rho}_{{{T}}}}$ decaying into ${{\mathit W}}{{\mathit \pi}_{{{T}}}}$ or ${{\mathit \pi}_{{{T}}}}{{\mathit \pi}_{{{T}}}}$ with ${{\mathit W}}$ $\rightarrow$ ${{\mathit \ell}}{{\mathit \nu}}$ and ${{\mathit \pi}_{{{T}}}}$ $\rightarrow$ ${{\overline{\mathit b}}}{{\mathit b}}$ , ${{\overline{\mathit b}}}{{\mathit c}}$ . See Fig.$~$1 in the above Note on ``Dynamical Electroweak Symmetry Breaking'' for the exclusion plot in the $\mathit M_{{{\mathit \rho}_{{{T}}}}}−\mathit M_{{{\mathit \pi}_{{{T}}}}}$ plane.

³⁰

AFFOLDER 2000K search for the ${{\mathit \rho}_{{{T8}}}}$ decaying into ${{\mathit \pi}_{{LQ}}}{{\mathit \pi}_{{LQ}}}$ with ${{\mathit \pi}_{{LQ}}}$ $\rightarrow$ ${{\mathit b}}{{\mathit \nu}}$ . For ${{\mathit \pi}_{{LQ}}}$ $\rightarrow$ ${{\mathit c}}{{\mathit \nu}}$ , the limit is $\mathit M_{{{\mathit \rho}_{{{T8}}}}}>510~$GeV. See their Fig.$~$2 and Fig.$~$3 for the exclusion plot in the $\mathit M_{{{\mathit \rho}_{{{T8}}}}}−\mathit M_{{{\mathit \pi}_{{LQ}}}}$ plane.

³¹

ABE 1999F search for a new particle ${{\mathit X}}$ decaying into ${{\mathit b}}{{\overline{\mathit b}}}$ in ${{\mathit p}}{{\overline{\mathit p}}}$ collisions at $\mathit E_{{\mathrm {cm}}}$= 1.8 TeV. See Fig.$~$7 in the above Note on ``Dynamical Electroweak Symmetry Breaking'' for the upper limit on $\sigma\mathrm {( {{\mathit p}} {{\overline{\mathit p}}} \rightarrow {{\mathit X}} )}{\times }$B( ${{\mathit X}}$ $\rightarrow$ ${{\mathit b}}{{\overline{\mathit b}}}$ ). ABE 1999F also exclude top gluons of width $\Gamma =0.3\mathit M$ in the mass interval $280<\mathit M<670$ GeV, of width $\Gamma =0.5\mathit M$ in the mass interval $340<\mathit M<640$ GeV, and of width $\Gamma =0.7\mathit M$ in the mass interval $375<\mathit M<560$ GeV.

³²

ABE 1999N search for the techni-${{\mathit \omega}}$ decaying into ${{\mathit \gamma}}{{\mathit \pi}_{{{T}}}}$ . The technipion is assumed to decay ${{\mathit \pi}_{{{T}}}}$ $\rightarrow$ ${{\mathit b}}{{\overline{\mathit b}}}$ . See Fig.$~$2 in the above Note on ``Dynamical Electroweak Symmetry Breaking'' for the exclusion plot in the $\mathit M_{{{\mathit \omega}_{{{T}}}}}−\mathit M_{{{\mathit \pi}_{{{T}}}}}$ plane.

³³

ABE 1997G search for a new particle ${{\mathit X}}$ decaying into dijets in ${{\mathit p}}{{\overline{\mathit p}}}$ collisions at $\mathit E_{{\mathrm {cm}}}$= 1.8 TeV. See Fig.$~$5 in the above Note on ``Dynamical Electroweak Symmetry Breaking'' for the upper limit on $\sigma\mathrm {( {{\mathit p}} {{\overline{\mathit p}}} \rightarrow {{\mathit X}} )}{\times }$B( ${{\mathit X}}$ $\rightarrow$ 2 ${{\mathit j}}$ ).

References:

AAD

2020AM

JHEP 2010 061

Search for $ t\overline{t} $ resonances in fully hadronic final states in $pp$ collisions at $ \sqrt{s} $ = 13 TeV with the ATLAS detector

AAD

2020W

JHEP 2006 151

Search for dijet resonances in events with an isolated charged lepton using $\sqrt{s} = 13$ TeV proton-proton collision data collected by the ATLAS detector

AAD

2016W

PL B758 249

Search for Single Production of a Vector-Like Quark via a Heavy Gluon in the 4${\mathit {\mathit b}}$ Final State with the ATLAS Detector in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV

KHACHATRYAN

2016E

PR D93 012001

Search for Resonant ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Production in Proton-Proton Collisions at $\sqrt {s }$ = 8 TeV

AAD

2015BB

EPJ C75 263

Search for a New Resonance Decaying to a ${{\mathit W}}$ or ${{\mathit Z}}$ Boson and a Higgs Boson in the ${{\mathit \ell}}{{\mathit \ell}}/{{\mathit \ell}}{{\mathit \nu}}/{{\mathit \nu}}{{\mathit \nu}}+{\mathit {\mathit b}}{\mathit {\overline{\mathit b}}}$ Final States with the ATLAS Detector

AAD

2015Q

PL B743 15

Search for Pair-Produced Long-Lived Neutral Particles Decaying in the ATLAS Hadronic Calorimeter in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV

AAD

2015AO

JHEP 1508 148

A Search for ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Resonances using Lepton-plus-Jets Events in Proton-Proton Collisions at $\sqrt {s }$ = 8 TeV with the ATLAS Detector

AAD

2015AB

PR D92 012010

Search for Long-Lived, Weakly Interacting Particles that Decay to Displaced Hadronic Jets in Proton-Proton Collisions at $\sqrt {s }$ = 8 TeV with the ATLAS Detector

AAIJ

2015AN

EPJ C75 152

Search for Long-Lived Particles Decaying to Jet Pairs

KHACHATRYAN

2015C

PL B740 83

Search for New Resonances Decaying via ${{\mathit W}}{{\mathit Z}}$ to Leptons in Proton-Proton Collisions at $\sqrt {s }$ = 8 TeV

KHACHATRYAN

2015W

PR D91 052012

Search for Long-Lived Particles that Decay into Final States Containing Two Electrons or Two Muons in Proton-Proton Collisions at $\sqrt {s }$ = 8 TeV

AAD

2014V

PR D90 052005

Search for High-Mass Dilepton Resonances in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV with the ATLAS Detector

AAD

2014AT

PL B738 428

Search for New Resonances in ${{\mathit W}}{{\mathit \gamma}}$ and ${{\mathit Z}}{{\mathit \gamma}}$ Final States in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV with the ATLAS Detector

AAD

2013AN

PR D87 112003

Measurements of ${{\mathit W}}{{\mathit \gamma}}$ and ${{\mathit Z}}{{\mathit \gamma}}$ Production in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 7 TeV with the ATLAS Detector at the LHC

Also

PR D91 119901 (errat.)

Erratum to AAD 2013AN. Measurements of ${{\mathit W}}{{\mathit \gamma}}$ and ${{\mathit Z}}{{\mathit \gamma}}$ Production in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 7 TeV with the ATLAS Detector at the LHC

AAD

2013AQ

PR D88 012004

A Search for ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Resonances in the Lepton Plus Jets Final State with ATLAS using 4.7 ${\mathrm {fb}}{}^{-1}$ of ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 7 TeV

CHATRCHYAN

2013AP

PR D87 072002

Search for ${{\mathit Z}^{\,'}}$ Resonances Decaying to ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ in dilepton+jets Final States in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 7 TeV

CHATRCHYAN

2013BM

PRL 111 211804

Searches for New Physics using the ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Invariant Mass Distribution in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV

Also

PRL 112 119903 (errat.)

Erratum to: CHATRCHYAN 2013BM. Searches for New Physics using the ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Invariant Mass Distribution in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV

BAAK

2012

EPJ C72 2003

Updated Status of the Global Electroweak Fit and Constraints on New Physics

CHATRCHYAN

2012AF

PRL 109 141801

Search for a ${{\mathit W}^{\,'}}$ or Techni-${{\mathit \rho}}$ Decaying into ${{\mathit W}}{{\mathit Z}}$ in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 7 TeV

AALTONEN

2011AD

PR D84 072003

Search for Resonant Production of ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Decaying to Jets in ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions at $\sqrt {s }$ = 1.96 TeV

AALTONEN

2011AE

PR D84 072004

Search for Resonant Production of ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ pairs in 4.8 fb${}^{-1}$ of Integrated Luminosity of ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions at $\sqrt {s }$ = 1.96 TeV

CHIVUKULA

2011A

PR D84 115025

Technipion Limits from LHC Higgs Searches

CHIVUKULA

2011

PR D84 095022

LHC Limits on the top-Higgs in Models with Strong Top-Quark Dynamics

AALTONEN

2010I

PRL 104 111802

Search for Technicolor Particles Produced in Association with a ${{\mathit W}}$ Boson at CDF

ABAZOV

2010A

PRL 104 061801

Search for a Resonance Decaying into ${{\mathit W}}{{\mathit Z}}$ Boson Pairs in ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions

ABAZOV

2007I

PRL 98 221801

Search for Techniparticles in ${{\mathit e}}$+jets Events at ${D0}$

ABULENCIA

2005A

PRL 95 252001

Search for New High-Mass Particles Decaying to Lepton Pairs in ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions at $\sqrt {s }$ =1.96 TeV

CHEKANOV

2002B

PL B531 9

High Mass Dijet Cross Sections in Photoproduction at HERA

ABAZOV

2001B

PRL 87 061802

Search for Heavy Particles Decaying into Electron-Positron Pairs in ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions

ABDALLAH

2001

EPJ C22 17

Search for Technicolor with DELPHI

AFFOLDER

2000K

PRL 85 2056

Search for Second and Third Generation Leptoquarks Including Production via Technicolor Interactions in ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions at $\sqrt {s }$ = 1.8 TeV

AFFOLDER

2000F

PRL 84 1110

Search for Technicolor Particles in Lepton Plus Two Jets and Multijet Channels in ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions at $\sqrt {s }$ = 1.8 TeV

ABE

1999F

PRL 82 2038

Search for New Particles Decaying to ${\mathit {\mathit b}}{\mathit {\overline{\mathit b}}}$ in ${{\mathit p}}{{\overline{\mathit p}}}$ Collisions at $\sqrt {s }$ = 1.8 TeV

ABE

1999N

PRL 83 3124

Search for a Technicolor ${{\mathit \omega}_{{T}}}$ Particle in Events with a Photon and a ${\mathit {\mathit b}}$-Quark jet at CDF

ABE

1997G

PR D55 5263

Search for New Particles Decaying to Dijets at CDF

Except where otherwise noted, content of the 2023 Review of Particle Physics is licensed under a Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) license. The publication of the Review of Particle Physics is supported by US DOE, MEXT (Japan), INFN (Italy), JPS and CERN. Individual collaborators receive support for their PDG activities from their respective institutes or funding agencies. © 2023. See LBNL disclaimers.

CONTACT US

Email:

Mailing Address:

Were you looking to order PDG products?

CITATION

MIRRORS