Your search keyword '"Lehtinen, Suvi-Leena"' showing total 9 results

1. The ILC as a natural SUSY discovery machine and precision microscope: from light higgsinos to tests of unification

Author

Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Lehtinen, Suvi-Leena, Tanabe, Tomohiko, Yan, Jacqueline, Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Lehtinen, Suvi-Leena, Tanabe, Tomohiko, and Yan, Jacqueline

Abstract

The requirement of electroweak naturalness in simple supersymmetric models implies the existence of a cluster of four light higgsinos with mass $\sim 100-300$\,GeV, the lighter the better. While such light compressed spectra may be challenging to observe at LHC, the International Linear $e^+e^-$ Collider (ILC) with $\sqrt{s}>2m_{\rm higgsino}$ would serve as both a SUSY discovery machine and a precision microscope. We study higgsino pair production signatures at the ILC based on full, \texttt{Geant4-}based simulation of the ILD detector concept. We examine several benchmark scenarios that may be challenging for discovery at HL-LHC due to mass differences between the higgsino states between $20$ and $4$\,GeV. Assuming $\sqrt{s}= 500$\,GeV and 1000\,fb$^{-1}$ of integrated luminosity, the individual higgsino masses can be measured to $1-2\%$ precision in case of the larger mass differences, and at the level of $5\%$ for the smallest mass difference case. The higgsino mass splittings are sensitive to the electroweak gaugino masses and allow extraction of gaugino masses to $\sim 3-20\%$ (depending on the model). Extrapolation of gaugino masses via renormalization group running can test the hypothesis of gaugino mass unification. We also examine a case with natural generalized mirage mediation where the unification of gaugino masses at an intermediate scale apparently gives rise to a natural SUSY spectrum somewhat beyond the reach of HL-LHC., Comment: 43 pages, 33 figures

Published

2019

2. The ILC as a natural SUSY discovery machine and precision microscope: from light higgsinos to tests of unification

Author

Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Lehtinen, Suvi-Leena, Tanabe, Tomohiko, Yan, Jacqueline, Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Lehtinen, Suvi-Leena, Tanabe, Tomohiko, and Yan, Jacqueline

Abstract

The requirement of electroweak naturalness in simple supersymmetric models implies the existence of a cluster of four light higgsinos with mass $\sim 100-300$\,GeV, the lighter the better. While such light compressed spectra may be challenging to observe at LHC, the International Linear $e^+e^-$ Collider (ILC) with $\sqrt{s}>2m_{\rm higgsino}$ would serve as both a SUSY discovery machine and a precision microscope. We study higgsino pair production signatures at the ILC based on full, \texttt{Geant4-}based simulation of the ILD detector concept. We examine several benchmark scenarios that may be challenging for discovery at HL-LHC due to mass differences between the higgsino states between $20$ and $4$\,GeV. Assuming $\sqrt{s}= 500$\,GeV and 1000\,fb$^{-1}$ of integrated luminosity, the individual higgsino masses can be measured to $1-2\%$ precision in case of the larger mass differences, and at the level of $5\%$ for the smallest mass difference case. The higgsino mass splittings are sensitive to the electroweak gaugino masses and allow extraction of gaugino masses to $\sim 3-20\%$ (depending on the model). Extrapolation of gaugino masses via renormalization group running can test the hypothesis of gaugino mass unification. We also examine a case with natural generalized mirage mediation where the unification of gaugino masses at an intermediate scale apparently gives rise to a natural SUSY spectrum somewhat beyond the reach of HL-LHC., Comment: 43 pages, 33 figures

Published

2019

3. The ILC as a natural SUSY discovery machine and precision microscope: from light higgsinos to tests of unification

Author

Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Lehtinen, Suvi-Leena, Tanabe, Tomohiko, Yan, Jacqueline, Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Lehtinen, Suvi-Leena, Tanabe, Tomohiko, and Yan, Jacqueline

Abstract

The requirement of electroweak naturalness in simple supersymmetric models implies the existence of a cluster of four light higgsinos with mass $\sim 100-300$\,GeV, the lighter the better. While such light compressed spectra may be challenging to observe at LHC, the International Linear $e^+e^-$ Collider (ILC) with $\sqrt{s}>2m_{\rm higgsino}$ would serve as both a SUSY discovery machine and a precision microscope. We study higgsino pair production signatures at the ILC based on full, \texttt{Geant4-}based simulation of the ILD detector concept. We examine several benchmark scenarios that may be challenging for discovery at HL-LHC due to mass differences between the higgsino states between $20$ and $4$\,GeV. Assuming $\sqrt{s}= 500$\,GeV and 1000\,fb$^{-1}$ of integrated luminosity, the individual higgsino masses can be measured to $1-2\%$ precision in case of the larger mass differences, and at the level of $5\%$ for the smallest mass difference case. The higgsino mass splittings are sensitive to the electroweak gaugino masses and allow extraction of gaugino masses to $\sim 3-20\%$ (depending on the model). Extrapolation of gaugino masses via renormalization group running can test the hypothesis of gaugino mass unification. We also examine a case with natural generalized mirage mediation where the unification of gaugino masses at an intermediate scale apparently gives rise to a natural SUSY spectrum somewhat beyond the reach of HL-LHC., Comment: 43 pages, 33 figures

Published

2019

4. Naturalness and light Higgsinos: why ILC is the right machine for SUSY discovery

Author

Lehtinen, Suvi-Leena, Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Tanabe, Tomohiko, Yan, Jacqueline, Lehtinen, Suvi-Leena, Baer, Howard, Berggren, Mikael, Fujii, Keisuke, List, Jenny, Tanabe, Tomohiko, and Yan, Jacqueline

Abstract

Radiatively-driven natural supersymmetry, a theoretically and experimentally well-motivated framework, centers around the predicted existence of four light, nearly mass-degenerate Higgsinos with mass $\sim 100-200$ GeV (not too far above $m_Z$). The small mass splittings amongst the higgsinos, typically 4-20 GeV, results in very little visible energy arising from decays of the heavier higgsinos. Given that other SUSY particles are considerably heavy, this makes detection challenging at hadron colliders. On the other hand, the clean environment of an electron-positron collider with $\sqrt{s}>2m_{higgsino}$ would enable a decisive search of these required higgsinos, and thus either the discovery or exclusion of natural SUSY. We present a detailed simulation study of precision measurements of higgsino masses and production cross sections at $\sqrt{s}$ = 500 GeV of the proposed International Linear Collider currently under consideration for construction in Japan. The study is based on a Geant4 simulation of the International Large Detector concept. We examine several benchmark points just beyond the HL-LHC reach, with four light higgsinos directly accessible by the ILC, and the mass differences between the lightest SUSY particle and the heavier states ranging from about 4 to 20 GeV. It can be shown that their masses and production cross sections can be precisely measured to approximately 1\% precision or better. These precise measurements allow for extracting the underlying weak scale SUSY parameters, giving predictions for the masses of heavier SUSY states. These provide motivation for future high-energy colliders. Additionally, dark matter properties may be derived. Evolution of the measured gaugino masses to high energies should allow testing the hypothesis of gaugino mass unification., Comment: 6 pages, 4 figures; to appear in the proceedings for EPS-HEP2017, 5-12 July 2017, Venice, Italy

Published

2017

5. The Potential of the ILC for Discovering New Particles

Author

Fujii, Keisuke, Grojean, Christophe, Peskin, Michael E., Barklow, Tim, Gao, Yuanning, Kanemura, Shinya, Kim, Hyungdo, List, Jenny, Nojiri, Mihoko, Perelstein, Maxim, Pöschl, Roman, Reuter, Jürgen, Simon, Frank, Tanabe, Tomohiko, Wells, James D., Yu, Jaehoon, Baer, Howard, Berggren, Mikael, Heinemeyer, Sven, Lehtinen, Suvi-Leena, Tian, Junping, Wilson, Graham, Yan, Jacqueline, Murayama, Hitoshi, Brau, James, Fujii, Keisuke, Grojean, Christophe, Peskin, Michael E., Barklow, Tim, Gao, Yuanning, Kanemura, Shinya, Kim, Hyungdo, List, Jenny, Nojiri, Mihoko, Perelstein, Maxim, Pöschl, Roman, Reuter, Jürgen, Simon, Frank, Tanabe, Tomohiko, Wells, James D., Yu, Jaehoon, Baer, Howard, Berggren, Mikael, Heinemeyer, Sven, Lehtinen, Suvi-Leena, Tian, Junping, Wilson, Graham, Yan, Jacqueline, Murayama, Hitoshi, and Brau, James

Abstract

This paper addresses the question of whether the International Linear Collider has the capability of discovering new particles that have not already been discovered at the CERN Large Hadron Collider. We summarize the various paths to discovery offered by the ILC, and discuss them in the context of three different scenarios: 1. LHC does not discover any new particles, 2. LHC discovers some new low mass states and 3. LHC discovers new heavy particles. We will show that in each case, ILC plays a critical role in discovery of new phenomena and in pushing forward the frontiers of high-energy physics as well as our understanding of the universe in a manner which is highly complementary to that of LHC. For the busy reader, a two-page executive summary is provided at the beginning of the document., Comment: 52 pages, 18 figures

Published

2017

6. The Potential of the ILC for Discovering New Particles

Author

Fujii, Keisuke, Grojean, Christophe, Peskin, Michael E., Barklow, Tim, Gao, Yuanning, Kanemura, Shinya, Kim, Hyungdo, List, Jenny, Nojiri, Mihoko, Perelstein, Maxim, Pöschl, Roman, Reuter, Jürgen, Simon, Frank, Tanabe, Tomohiko, Wells, James D., Yu, Jaehoon, Baer, Howard, Berggren, Mikael, Heinemeyer, Sven, Lehtinen, Suvi-Leena, Tian, Junping, Wilson, Graham, Yan, Jacqueline, Murayama, Hitoshi, Brau, James, Fujii, Keisuke, Grojean, Christophe, Peskin, Michael E., Barklow, Tim, Gao, Yuanning, Kanemura, Shinya, Kim, Hyungdo, List, Jenny, Nojiri, Mihoko, Perelstein, Maxim, Pöschl, Roman, Reuter, Jürgen, Simon, Frank, Tanabe, Tomohiko, Wells, James D., Yu, Jaehoon, Baer, Howard, Berggren, Mikael, Heinemeyer, Sven, Lehtinen, Suvi-Leena, Tian, Junping, Wilson, Graham, Yan, Jacqueline, Murayama, Hitoshi, and Brau, James

Abstract

This paper addresses the question of whether the International Linear Collider has the capability of discovering new particles that have not already been discovered at the CERN Large Hadron Collider. We summarize the various paths to discovery offered by the ILC, and discuss them in the context of three different scenarios: 1. LHC does not discover any new particles, 2. LHC discovers some new low mass states and 3. LHC discovers new heavy particles. We will show that in each case, ILC plays a critical role in discovery of new phenomena and in pushing forward the frontiers of high-energy physics as well as our understanding of the universe in a manner which is highly complementary to that of LHC. For the busy reader, a two-page executive summary is provided at the beginning of the document., Comment: 52 pages, 18 figures

Published

2017

7. Naturalness and light higgsinos: A powerful reason to build the ILC

Author

Baer, Howard, Berggren, Mikael, Fujii, Keisuke, Lehtinen, Suvi-Leena, List, Jenny, Tanabe, Tomohiko, Yan, Jacqueline, Baer, Howard, Berggren, Mikael, Fujii, Keisuke, Lehtinen, Suvi-Leena, List, Jenny, Tanabe, Tomohiko, and Yan, Jacqueline

Abstract

A core prediction of natural Supersymmetry is the existence of four light higgsinos not too far above the mass of the $Z$ boson. The small mass splittings amongst the higgsinos -- typically 5-20\,GeV -- imply very little visible energy release from decays of heavier higgsinos. In particular, if other SUSY particles are quite heavy, as can be the case in SUSY with radiatively-driven naturalness, the higgsinos are extremely hard to detect at hadron colliders. The clean environment of electron-positron colliders with $\sqrt{s} > 2m_{\mathrm{higgsino}}$, however, would allow for a decisive search for the required light higgsinos. Thus, $e^+e^-$ colliders should either discover or exclude natural SUSY. We present a detailed study of higgsino pair production at the proposed International Linear $e^+e^-$ Collider which is under consideration for construction in Japan. A variety of precision measurements should allow for extraction of underlying parameters and provide a window onto physics at the grand unified scale., Comment: 5pages plus title page, proceedings ICHEP 2016

Published

2016

8. Dark matter relic density from observations of supersymmetry at the ILC

Author

Lehtinen, Suvi-Leena, Berggren, Mikael, List, Jenny, Lehtinen, Suvi-Leena, Berggren, Mikael, and List, Jenny

Abstract

Supersymmetry can explain the observed dark matter relic density with a neutralino dark matter particle and a coannihilating, almost mass-degenerate sparticle. If this were the case in nature, a linear electron positron collider like the ILC could discover the two sparticles if their masses are in the kinematic reach of the collider. This contribution discusses which observations are necessary at the ILC for predicting the dark matter relic density correctly and for confirming that the observed lightest neutralino is the only kind of dark matter. We take the case of stau coannihilation as an example., Comment: 8 pages, 6 figures, Talk presented at the International Workshop on Future Linear Colliders (LCWS15), Whistler, Canada, 2-6 November 2015

Published

2016

9. Naturalness and light higgsinos: A powerful reason to build the ILC

Author

Baer, Howard, Berggren, Mikael, Fujii, Keisuke, Lehtinen, Suvi-Leena, List, Jenny, Tanabe, Tomohiko, Yan, Jacqueline, Baer, Howard, Berggren, Mikael, Fujii, Keisuke, Lehtinen, Suvi-Leena, List, Jenny, Tanabe, Tomohiko, and Yan, Jacqueline

Abstract

A core prediction of natural Supersymmetry is the existence of four light higgsinos not too far above the mass of the $Z$ boson. The small mass splittings amongst the higgsinos -- typically 5-20\,GeV -- imply very little visible energy release from decays of heavier higgsinos. In particular, if other SUSY particles are quite heavy, as can be the case in SUSY with radiatively-driven naturalness, the higgsinos are extremely hard to detect at hadron colliders. The clean environment of electron-positron colliders with $\sqrt{s} > 2m_{\mathrm{higgsino}}$, however, would allow for a decisive search for the required light higgsinos. Thus, $e^+e^-$ colliders should either discover or exclude natural SUSY. We present a detailed study of higgsino pair production at the proposed International Linear $e^+e^-$ Collider which is under consideration for construction in Japan. A variety of precision measurements should allow for extraction of underlying parameters and provide a window onto physics at the grand unified scale., Comment: 5pages plus title page, proceedings ICHEP 2016

Published

2016