X. L. Qian scite author profile

In order to observe gamma rays in the 100 TeV energy region, the 4500 m 2 underground muon detector array using water Cherenkov technique is constructed, forming the TIBET +MD hybrid array. Because the showers induced by primary gamma rays contain much fewer muons than those induced by primary hadrons, significant improvement of the gamma ray sensitivity for TIBET +MD array is expected. In this paper, the design and performance of the MD-A detector with large Tyvek bag is reported.

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Measurement of high energy cosmic rays by the new Tibet hybrid experiment

Amenomori¹,

Bi²,

Chen³

et al. 2017

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We have started a new hybrid air shower experiment at Yangbajing (4300 m a.s.l.) in Tibet in February 2014. This new hybrid experiment consists of the YAC-II comprised of 124 core detectors placed in the form of a square grid of 1.9 m spacing covering about 500 m 2 , the Tibet-III air shower array with the total area of about 50,000 m 2 and the underground MD array consisting of 80 cells, with the total area of about 4,200 m 2 . This hybrid-array system is used to observe air showers of high energy celestial gamma-ray origin and those of nuclear-component origin. In this paper, a short review of the experiment will be followed by an overview on the current results on energy spectrum and chemical composition of CRs and test of hadronic interaction models.

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Tipping Point Detection Using Reservoir Computing

Zhu

Zhao

et al. 2023

Research

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Detection in high fidelity of tipping points, the emergence of which is often induced by invisible changes in internal structures or/and external interferences, is paramountly beneficial to understanding and predicting complex dynamical systems (CDSs). Detection approaches, which have been fruitfully developed from several perspectives (e.g., statistics, dynamics, and machine learning), have their own advantages but still encounter difficulties in the face of high-dimensional, fluctuating datasets. Here, using the reservoir computing (RC), a recently notable, resource-conserving machine learning method for reconstructing and predicting CDSs, we articulate a model-free framework to accomplish the detection only using the time series observationally recorded from the underlying unknown CDSs. Specifically, we encode the information of the CDS in consecutive time durations of finite length into the weights of the readout layer in an RC, and then we use the learned weights as the dynamical features and establish a mapping from these features to the system’s changes. Our designed framework can not only efficiently detect the changing positions of the system but also accurately predict the intensity change as the intensity information is available in the training data. We demonstrate the efficacy of our supervised framework using the dataset produced by representative physical, biological, and real-world systems, showing that our framework outperforms those traditional methods on the short-term data produced by the time-varying or/and noise-perturbed systems. We believe that our framework, on one hand, complements the major functions of the notable RC intelligent machine and, on the other hand, becomes one of the indispensable methods for deciphering complex systems.

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X. L. Qian

SEARCH FOR GAMMA RAYS ABOVE 100 TeV FROM THE CRAB NEBULA WITH THE TIBET AIR SHOWER ARRAY AND THE 100 m²MUON DETECTOR

Is the large-scale sidereal anisotropy of the galactic cosmic-ray intensity really instable at TeV energies?

Performance of the muon detector A under TIBET III array

Measurement of high energy cosmic rays by the new Tibet hybrid experiment

Tipping Point Detection Using Reservoir Computing

Contact Info

Product

Resources

About

X. L. Qian

SEARCH FOR GAMMA RAYS ABOVE 100 TeV FROM THE CRAB NEBULA WITH THE TIBET AIR SHOWER ARRAY AND THE 100 m2MUON DETECTOR

Is the large-scale sidereal anisotropy of the galactic cosmic-ray intensity really instable at TeV energies?

Performance of the muon detector A under TIBET III array

Measurement of high energy cosmic rays by the new Tibet hybrid experiment

Tipping Point Detection Using Reservoir Computing

Contact Info

Product

Resources

About

SEARCH FOR GAMMA RAYS ABOVE 100 TeV FROM THE CRAB NEBULA WITH THE TIBET AIR SHOWER ARRAY AND THE 100 m²MUON DETECTOR