Triggering long-lived particles in HL-LHC and the challenges in the first stage of the trigger system

Triggering long-lived particles at the first stage of the trigger system is very crucial in LLP searches to ensure that we do not miss them at the very beginning. The future High Luminosity runs of the Large Hardron Collider will have increased number of pile-up events per bunch crossing. There will be major upgrades in hardware, firmware and software sides, like tracking at level-1 (L1) as well as inclusion of the MIP timing detector. The L1 trigger menu will also be modified to cope with pile-up and maintain the sensitivity to physics processes. In our study we found that the usual level-1 triggers, mostly meant for triggering prompt particles, will not be very efficient for LLP searches in the 140 PU environment of HL-LHC, thus pointing to the need to include dedicated L1 triggers in the menu for LLPs. We consider the decay of the LLP into jets and develop dedicated jet triggers using the track information and if available, the regional timing information at L1 to select LLP events. We show in our work that these triggers give promising results in identifying LLP events with moderate trigger rates.Triggering long-lived particles (LLPs) at the first stage of the trigger system is very crucial in LLP searches to ensure that we do not miss them at the very beginning. The future High Luminosity runs of the Large Hadron Collider will have increased number of pile-up events per bunch crossing. There will be major upgrades in hardware, firmware and software sides, like tracking at level-1 (L1). The L1 trigger menu will also be modified to cope with pile-up and maintain the sensitivity to physics processes. In our study we found that the usual level-1 triggers, mostly meant for triggering prompt particles, will not be very efficient for LLP searches in the 140 pile-up environment of HL-LHC, thus pointing to the need to include dedicated L1 triggers in the menu for LLPs. We consider the decay of the LLP into jets and develop dedicated jet triggers using the track information at L1 to select LLP events. We show in our work that these triggers give promising results in identifying LLP events with moderate trigger rates

Effect of Tillage and Weed Management Practices on Dry Matter, Yield and Nutrient Uptake by Plant and Depletion by Weed in Lentil Crop (Lens culinaris M.)

Aims: To evaluate the impact of tillage and weed management techniques on Plant dry weight, Yield, nutrient uptake by plant and depletion by weed in lentil crop (Lens culinaris M.). Place and Duration of Study: A field study was conducted at Research Farm of Tirhut College of Agriculture, Dr. Rajendra Prasad Central Agricultural University, Pusa, Bihar, India, from Oct 2020 to Mar 2021. Methodology: The experiment followed a split-plot design with three replications. The main plots consisted of three tillage practices (M1: Zero tillage, M2: Minimum tillage, and M3: Conventional tillage), while subplots included five weed management practices [T1: control, T2: 1 hand weeding at 20 DAS, T3: chlorimuron-ethyl 4 g/ha (pre-emergence) + paddy straw mulching (5.0 t/ha), T4: quizalofop-ethyl 40 g/ha at 20 DAS (post-emergence) and T5: chlorimuron-ethyl 4 g/ha (pre-emergence) + quizalofop-ethyl 40 g/ha at 20 DAS (post-emergence)]. Results: Among the tillage practices conventional found most effective in term of increasing plant dry weight, grain yield, straw yield, nutrient uptake by crop while effectively reduce the weed dry matter and nutrient depletion by the weed. Among the weed management practices hand weeding proved to be the most effective weed management practice, leading to higher plant dry matter, grain yield, straw yield and nutrient uptake by crop and least weed dry matter weight and nutrient depletion by weeds. Among the chemical weeding chlorimuron ethyl (PE) + paddy straw mulching showed comparable effectiveness to hand weeding in all the parameters. These results highlight the importance of tillage practices and effective weed management techniques in optimizing plant growth, yield, nutrient uptake, and weed control

Search for a very light pseudoscalar boson produced in decays of the 125 GeV Higgs boson in final state with two muons and two tau leptons

The results of the study of the H(125) boson properties allow the branching fraction of H(125) into non-SM particles to be as high as 34%. A vast set of models containing two Higgs doublets plus one additional Higgs singlet complex field (2HD+1S) are consistent with SM measurements, constraints from additional Higgs bosons and searches for supersymmetry, as well as with the measured properties of the H(125) boson. The Higgs sector of the 2HD+1S models features seven physical states: three CP-even, two CP-odd and two charged bosons. The lightest pseudoscalar boson a1 is potentially accessible in the H(125)→ a1a1 decay, with sufficiently high rate to be detected at the LHC. A new search for a very light pseudoscalar Higgs boson will be presented, investigating final states where one a1 boson decays into a pair of muons and the other into a pair of tau leptons. The search is based on a dataset corresponding to an integrated luminosity of 35.9 fb−1, collected with the CMS detector at √s=13 TeV, probing low mass a1 region between 3.6 and 19 GeV