Your search keyword '"Bai, Haofan"' showing total 7 results

1. Cross section measurement for the 232 Th(n, f) reaction in the 4.50−5.40 MeV region using a time projection chamber.

Author

Bai, Haofan, Yi, Han, Sun, Yankun, Hu, Yiwei, Liu, Jie, Wu, Zepeng, Xia, Cong, Ren, Wenkai, Cao, Wentian, Fan, Tieshuan, Zhang, Guohui, Fan, Ruirui, Li, Yang, Jiang, Wei, Chen, Yonghao, Lv, You, Ning, Changjun, Jia, Weihua, Zhang, Zhiyong, and Chen, Haolei

Published

2024

2. BerryNet-Lite: A Lightweight Convolutional Neural Network for Strawberry Disease Identification.

Author

Wang, Jianping, Li, Zhiyu, Gao, Guohong, Wang, Yan, Zhao, Chenping, Bai, Haofan, Lv, Yingying, Zhang, Xueyan, and Li, Qian

Subjects

CONVOLUTIONAL neural networks, STRAWBERRIES, DEEP learning, COMPUTER vision, FEATURE extraction

Abstract

With the rapid advancements in computer vision, using deep learning for strawberry disease recognition has emerged as a new trend. However, traditional identification methods heavily rely on manual discernment, consuming valuable time and imposing significant financial losses on growers. To address these challenges, this paper presents BerryNet-Lite, a lightweight network designed for precise strawberry disease identification. First, a comprehensive dataset, encompassing various strawberry diseases at different maturity levels, is curated. Second, BerryNet-Lite is proposed, utilizing transfer learning to expedite convergence through pre-training on extensive datasets. Subsequently, we introduce expansion convolution into the receptive field expansion, promoting more robust feature extraction and ensuring accurate recognition. Furthermore, we adopt the efficient channel attention (ECA) as the attention mechanism module. Additionally, we incorporate a multilayer perceptron (MLP) module to enhance the generalization capability and better capture the abstract features. Finally, we present a novel classification head design approach which effectively combines the ECA and MLP modules. Experimental results demonstrate that BerryNet-Lite achieves an impressive accuracy of 99.45%. Compared to classic networks like ResNet34, VGG16, and AlexNet, BerryNet-Lite showcases superiority across metrics, including loss value, accuracy, precision, F1-score, and parameters. It holds significant promise for applications in strawberry disease identification. [ABSTRACT FROM AUTHOR]

Published

2024

3. Cross section measurement for the 14N(n,α0,1)11B reactions in the 4.5–11.5 MeV neutron energy region.

Author

Hu, Yiwei, Gledenov, Yu. M., Cui, Zengqi, Liu, Jie, Bai, Haofan, Xia, Cong, Chen, Zhenpeng, Wu, Zepeng, Ren, Wenkai, Cao, Wentian, Fan, Tieshuan, Zhang, Guohui, Sansarbayar, E., Khuukhenkhuu, G., Krupa, L., Chuprakov, I., Fan, Qiwen, Ruan, Xichao, Huang, Hanxiong, and Ren, Jie

Subjects

NEUTRON temperature, NUCLEAR energy, ACCELERATOR mass spectrometry, NEUTRON capture

Abstract

With more accurate measurement method for gas samples, cross sections of the 14N(n,α0,1)11B reactions were measured at 24 energy points in the 4.5–11.5 MeV neutron energy region based on the 4.5 MV Van de Graaff accelerator at Peking University and the HI-13 tandem accelerator of China Institute of Atomic Energy (CIAE). The average neutron fluence (Φ) through the gas sample was obtained through the combination of a highly enriched 238U3O8 sample and the simulation based on SuperMC. The cross sections of the 14N(n,α0)11B reaction measured using the gas sample and the solid samples are in agreement with each other. R-matrix analysis was carried out for the n + 14N system using code RAC in the neutron energy region below 30 MeV. A possible valley structure in both the excitation functions of the 14N(n,α0,1)11B reactions in the 10–11 MeV neutron energy region was found for the first time. [ABSTRACT FROM AUTHOR]

Published

2024

4. Determination of the 232Th(n,γ) cross section from 10 to 200 keV at the Back-n facility at CSNS.

Author

Wang, Jincheng, Ren, Jie, Jiang, Wei, Ruan, Xichao, Sun, Qi, Hu, Jifeng, Jiang, Bing, Bao, Jie, Zhang, Qiwei, Luan, Guangyuan, Huang, Hanxiong, Nie, Yangbo, Ge, Zhigang, An, Qi, Bai, Haofan, Bai, Jiangbo, Cao, Ping, Chen, Qiping, Chen, Yonghao, and Chen, Zhen

Abstract

The neutron capture cross section of 232 T h has been measured with the time-of-flight technique in the energy range from 10 to 200 keV at the back-streaming white neutron beam-line (Back-n) of China Spallation Neutron Source (CSNS). The pulse height weighting technique (PHWT) was applied with four C 6 D 6 liquid scintillators to measure the prompt gamma-ray energy release following neutron capture. The measurement data, corrected with the PHWT, have been normalized to the saturated resonances at 21.8 eV. The background was determined by a lead sample measurement and detailed Monte Carlo simulations. The 232 T h (n , γ) average cross sections have been determined relative to the 197 A u (n , γ) reaction cross sections. The results are consistent with the evaluation values of CENDL-3.2 and JENDL-5. The total uncertainties, including the PHWT, normalization, background subtraction, corrections, and relative measurement, are in the range of 4.5–4.8%. [ABSTRACT FROM AUTHOR]

Published

2023

5. The light charged particle detector array at the CSNS Back-n white neutron source.

Author

Sun, Kang, Zhang, Guohui, Yi, Han, Fan, Ruirui, Tang, Jingyu, Jiang, Wei, Chen, Yonghao, Jiang, Haoyu, Cui, Zengqi, Hu, Yiwei, Liu, Jie, Ning, Changjun, Wang, Pengcheng, Niu, Mengchen, Long, Ze, An, Qi, Bai, Haofan, Bai, Jiangbo, Bao, Jie, and Cao, Ping

Published

2023

6. Simultaneous measurement of energy spectrum and fluence of neutrons using a diamond detector.

Author

Liu, Jie, Jiang, Haoyu, Cui, Zengqi, Hu, Yiwei, Bai, Haofan, Fan, Tieshuan, Chen, Jinxiang, Gao, Yuan, Yang, Xiangjun, and Zhang, Guohui

Subjects

NEUTRON measurement, NUCLEAR reactions, NEUTRONS, NEUTRON temperature, LIQUID scintillators, NANODIAMONDS, NEUTRON counters

Abstract

Due to the excellent radiation hardness and high–temperature endurance, diamond detectors are suitable for intense neutron measurements and promising for neutron diagnostics of scientific fusion devices. In the present work, simultaneous measurement of energy spectrum and fluence of neutrons using a diamond detector was realized for the first time. The absolute response matrix of the diamond detector was simulated based on detailed analysis of the nuclear reactions and the proper selection of nuclear reaction data. Neutron energy spectra as well as neutron fluences for 5.0, 5.5, 8.5, 9.5 and 10.5 MeV neutrons from d–d reaction were measured using the diamond detector based on the absolute response matrix. The measured neutron energy spectra and neutron fluences are reasonable compared with those detected using a EJ-309 liquid scintillator and a 238U fission chamber, respectively, which verifies the reliability of the present work. Furthermore, the energy spectrum and fluence of a 14.2 MeV d–t neutron source were also measured using the diamond detector. The present work demonstrates the ability of simultaneous measurement of energy spectrum and fluence as well as for both d–d and d–t neutrons using a diamond detector, which is of great significance for neutron diagnostics of scientific fusion devices. [ABSTRACT FROM AUTHOR]

Published

2022

7. Cross section of the 232Th(n, f) reaction in the MeV neutron energy region.

Author

Gledenov, Yu. M., Cui, Zengqi, Liu, Jie, Jiang, Haoyu, Hu, Yiwei, Bai, Haofan, Chen, Jinxiang, Zhang, Guohui, Sansarbayar, E., Khuukhenkhuu, G., Krupa, L., Chuprakov, I., Han, Yinlu, Ruan, Xichao, Huang, Hanxiong, and Ren, Jie

Subjects

NEUTRON temperature, NEUTRON sources, MONTE Carlo method, FOREIGN exchange futures, SYSTEMS development

Abstract

Accurate cross section of the 232Th(n, f) reaction are demanded in the design of advanced nuclear systems and in the development of fission theory. However, the existing measurement data are relatively sparse comparing with those of the 238U(n, f) reaction, with big uncertainties and obvious discrepancies. Furthermore, analysis shows that systematic deviations exist between the results measured with mono-energetic neutron sources and white neutron sources, which is the main reason for the differences among different evaluation libraries. This work is dedicated to the clarification of this discrepancy. Based on mono-energetic d-d neutron sources and using back-to-back Th/238U samples, cross section of the 232Th(n, f) reaction were measured at 12 energies in the 4.2–11.5 MeV region. Elaborated measures were taken in the measurement procedure including the exchange of the forward and the backward direction of the samples, as well as in the data processing containing the correction of interference fission counts from low-energy neutrons and the detailed Monte Carlo simulations for the determination of detection efficiencies for fission events. In addition, theoretical analysis was also performed using TALYS-1.9 and UNF codes. The present results agree with existing measurement data using white neutron sources, showing that previous cross section of the 232Th(n, f) reaction measured using mono-energetic neutron sources are systematically overestimated on average. The present results are in accordance with the latest measurement data of Michalopoulou et al., which is helpful in the improvement of nuclear data evaluations of the 232Th(n, f) reaction. [ABSTRACT FROM AUTHOR]

Published

2022