68 research outputs found
The NA62 experiment at CERN: status and perspectives
The NA62 experiment at CERN will measure the branching ratio of the K+ -> pi+
nu nubar decay with a precision of 10%, collecting about 100 events in two
years of run. This paper will review the design of the experiment, the strategy
for the measurement and the actual status of the installation. Prospects for
the data collection and for the measurement of other rare K+ channels will be
presented.Comment: Presented at the 2014 Flavour Physics and CP Violation (FPCP2014),
Marseille, France, May 26-30 2014, 10 pages, 4 figure
NaNet:a low-latency NIC enabling GPU-based, real-time low level trigger systems
We implemented the NaNet FPGA-based PCI2 Gen2 GbE/APElink NIC, featuring
GPUDirect RDMA capabilities and UDP protocol management offloading. NaNet is
able to receive a UDP input data stream from its GbE interface and redirect it,
without any intermediate buffering or CPU intervention, to the memory of a
Fermi/Kepler GPU hosted on the same PCIe bus, provided that the two devices
share the same upstream root complex. Synthetic benchmarks for latency and
bandwidth are presented. We describe how NaNet can be employed in the prototype
of the GPU-based RICH low-level trigger processor of the NA62 CERN experiment,
to implement the data link between the TEL62 readout boards and the low level
trigger processor. Results for the throughput and latency of the integrated
system are presented and discussed.Comment: Proceedings for the 20th International Conference on Computing in
High Energy and Nuclear Physics (CHEP
SIMPLE ENUCLEATION VERSUS RADICAL NEPHRECTOMY IN THE TREATMENT OF pT1a AND pT1b RENAL CELL CARCINOMA
Templates of Lymph Node Dissection for Renal Cell Carcinoma: A Systematic Review of the Literature
Background: The role of lymph node dissection (LND) for renal cell carcinoma (RCC) is controversial. Notably, the conflicting evidence on the benefits and harms of LND is inherently linked to the lack of consensus on both anatomic templates and extent of lymphadenectomy. Herein, we provide a detailed overview of the most commonly dissected templates of LND for RCC, focusing on key anatomic landmarks and patterns of lymphatic drainage.Methods: A systematic review of the English-language literature was performed without time filters in July 2018 in accordance to the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) statement recommendations. The primary endpoint was to summarize the most commonly dissected templates of LND according to the side of RCC.Results: Overall, 25 studies were selected for qualitative analysis. Of these, most were retrospective. The LND template was heterogeneous across studies. Indications and extent of LND were either not reported or not standardized in most series. The most commonly dissected template for right-sided tumors included hilar, paracaval, and precaval nodes, with few authors extending the dissection to the inter-aortocaval, retrocaval, common iliac or pre/paraaortic nodes. Similarly, the most commonly dissected template for left-sided tumors encompassed the renal hilar, preaortic and paraaortic nodes, with few authors reporting a systematic dissection of inter-aortocaval, retro-aortic, common iliac, or para-caval nodes.Conclusions: In light of the unpredictable renal lymphatic anatomy and the evidence from available prospective mapping studies, the extent of the most commonly dissected templates might be insufficient to catch the overall anatomic pattern of lymphatic drainage from RCC
Search for heavy neutral lepton production in K+ decays
A search for heavy neutral lepton production in K + decays using a data sample collected with a minimum
bias trigger by the NA62 experiment at CERN in 2015 is reported. Upper limits at the 10−7 to 10−6 level
are established on the elements of the extended neutrino mixing matrix |Ue4|
2 and |Uμ4|
2 for heavy
neutral lepton mass in the ranges 170–448 MeV/c2 and 250–373 MeV/c2, respectively. This improves on
the previous limits from HNL production searches over the whole mass range considered for |Ue4|2 and
above 300 MeV/c2 for |Uμ4|2
Measurement of the very rare decay
The decay K+→π+νν¯
, with a very precisely predicted branching ratio of less than 10−10
,
is among the best processes to reveal indirect effects of new physics.
The NA62 experiment at CERN SPS is designed to study the K+→π+νν¯
decay and to measure its branching ratio using a decay-in-flight technique.
NA62 took data in 2016, 2017 and 2018, reaching the sensitivity of the Standard Model
for the K+→π+νν¯
decay by the analysis of the 2016 and 2017 data,
and providing the most precise measurement of the branching ratio to date
by the analysis of the 2018 data.
This measurement is also used to set limits on BR(K+→π+X
), where X
is a scalar
or pseudo-scalar particle.
The final result of the BR(K+→π+νν¯
) measurement and its interpretation in terms
of the K+→π+X
decay from the analysis of the full 2016-2018 data set is presented, and future plans and prospects are reviewed
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