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The European Physical Journal C
ISSN: 1434-6044 (printed version)
ISSN: 1434-6052 (electronic version)
Abstract Volume 1 Issue 1/2 (1998) pp 375-393
theoretical physics:
Virtual LSPs at e$^+$ e$^-$ colliders
Amitava Datta (1), Aseshkrishna Datta (1), Sreerup Raychaudhuri (2)
(1) Department of Physics, Jadavpur University, Calcutta 700 032, India
(2) Theoretical Physics Group, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400 005, India (e-mail: sreerup@theory.tifr.res.in)
Received: 20 May 1996 / Revised version: 19 March 1997
Abstract. Currently popular search strategies for supersymmetric particles may be significantly affected due to relatively light sneutrinos which decay dominantly into invisible channels. In certain cases the second lightest neutralino may also decay invisibly leading to two extra carriers of missing energy (in addition to the lightest supersymmetric particle (LSP) ) - the virtual LSPs (VLSPs). A tree lavel calculation shows that if the sneutrino mass happens to be in the small but experimentally allowed range ($m_{\bar\nu} \approx$ 45-55 GeV), these particles together with neutralino pairs may contribute significantly to the missing energy in the process $e^+ e^- \longrightarrow \gamma + \not \!\!{E}$ at LEP-2 energies as an enhancement over the Standard Model or the conventional MSSM predictions. It is further shown that a much larger region of the parameter space can be scanned at a high luminosity $e^+ e^-$ collider at 500 GeV like the proposed NLC machine. Moreover, at both LEP-2 and NLC this process may play a complementary role to direct chargino searches, which may fail due to a near mass degeneracy of the chargino and the sneutrino. Formulae for the cross sections taking into account full mixings of the charginos and the neutralinos are derived. The signal remains observable even in the context of more restricted models based on $N$=1 SUGRA with common scalar and gaugino masses. A preliminary study of the QED radiative corrections due to soft multiple photon emission as well as hard collinear bremsstrahlung indicates that these corrections play a crucial role in estimating the background.
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Online publication: December 11, 1997
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