Compact 16-channel integrated charge-sensitive preamplifier module for silicon strip detectors

Wang, Dong-Xi; Lin, C. J.; Yang, L.; Ma, Nan-Ru; Sun, L. J.; Feng, Yan; Jia, H. M.; Zhong, F. P.; Wen, Peiwei

doi:10.1007/s41365-020-00755-0

Cited by 13 publications

(4 citation statements)

References 26 publications

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“…The position and energy of the charged breakup fragments in the reactions were measured using a large solidangle covered detector array designed at CIAE [18], as shown in Fig. 1(a).…”

Section: Methodsmentioning

confidence: 99%

Relative probabilities of breakup channels in reactions of ^6,7Li with ²⁰⁹Bi at energies around and above the Coulomb barrier *

Yao¹,

Lin²,

Yang³

et al. 2021

Chinese Phys. C

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Coincidence measurements of breakup fragments in reactions of with at energies around and above the Coulomb barrier were carried out using a large solid-angle covered detector array. Through the Q values along with the relative energies of the breakup fragments, different breakup components (prompt breakups and delayed breakups) and different breakup modes ( , , , and ) are distinguished. A new breakup mode, , is observed in -induced reactions at energies above the Coulomb barrier. Correlations between breakup modes and breakup components as well as their variations with the incident energy are investigated. The results will help us better understand the breakup effects of weakly bound nuclei on the suppression of a complete fusion, particularly for the above-barrier energies.

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“…The position and energy of the charged breakup fragments in the reactions were measured using a large solidangle covered detector array designed at CIAE [18], as shown in Fig. 1(a).…”

Section: Methodsmentioning

confidence: 99%

Relative probabilities of breakup channels in reactions of ^6,7Li with ²⁰⁹Bi at energies around and above the Coulomb barrier *

Yao¹,

Lin²,

Yang³

et al. 2021

Chinese Phys. C

Self Cite

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“…The double-sided SSD featuring heavily doped P + junction strips that collect the holes and the N + ohmic strips that collect electrons can realize twodimensional position detection. Since SSDs have low noise, good linearity, a high count rate, and excellent position and energy resolution, they are widely used in high-energy physics, nuclear physics, and space detection facilities [13,14]. Fig.…”

Section: Silicon Strip Detectormentioning

confidence: 99%

Advances in nuclear detection and readout techniques

He,

Niu,

Wang

et al. 2023

NUCL SCI TECH

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Abstract“A Craftsman Must Sharpen His Tools to Do His Job,” said Confucius. Nuclear detection and readout techniques are the foundation of particle physics, nuclear physics, and particle astrophysics to reveal the nature of the universe. Also, they are being increasingly used in other disciplines like nuclear power generation, life sciences, environmental sciences, medical sciences, etc. The article reviews the short history, recent development, and trend of nuclear detection and readout techniques, covering Semiconductor Detector, Gaseous Detector, Scintillation Detector, Cherenkov Detector, Transition Radiation Detector, and Readout Techniques. By explaining the principle and using examples, we hope to help the interested reader underst and this research field and bring exciting information to the community.

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“…In recent decades, the HBT correlations of intermediate mass fragments and light particles have been widely measured [6][7][8], revealing many interesting space-time features of heavy ion reactions. As demonstrated in many experimental studies in nuclear physics over a wide energy range, the application of silicon strip detectors (SSDs) greatly improves the detector granularity and momentum resolution and has enabled the output of numerous novel and intriguing physical results [9][10][11][12][13][14][15][16]. Similarly, more precise measurement of the HBT correlation function using this technique can be expected.…”

Section: Introductionmentioning

confidence: 99%

CSHINE for studies of HBT correlation in Heavy Ion Reactions

Wang

Guan

Diao

et al. 2021

Preprint

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The Compact Spectrometer for Heavy Ion Experiment (CSHINE) is under construction for the study of isospin chronology via the Hanbury Brown−Twiss (HBT) particle correlation function and the nuclear equation of state of asymmetrical nuclear matter. The CSHINE consists of silicon strip detector (SSD) telescopes and large-area parallel plate avalanche counters, which measure the light charged particles and fission fragments, respectively. In phase I, two SSD telescopes were used to observe 30 MeV/u 40 Ar + 197 Au reactions. The results presented here demonstrate that hydrogen and helium were observed with high isotopic resolution, and the HBT correlation functions of light charged particles could be constructed from the obtained data.

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Compact 16-channel integrated charge-sensitive preamplifier module for silicon strip detectors

Cited by 13 publications

References 26 publications

Relative probabilities of breakup channels in reactions of ^6,7Li with ²⁰⁹Bi at energies around and above the Coulomb barrier *

Relative probabilities of breakup channels in reactions of ^6,7Li with ²⁰⁹Bi at energies around and above the Coulomb barrier *

Advances in nuclear detection and readout techniques

CSHINE for studies of HBT correlation in Heavy Ion Reactions

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Compact 16-channel integrated charge-sensitive preamplifier module for silicon strip detectors

Cited by 13 publications

References 26 publications

Relative probabilities of breakup channels in reactions of 6,7Li with 209Bi at energies around and above the Coulomb barrier *

Relative probabilities of breakup channels in reactions of 6,7Li with 209Bi at energies around and above the Coulomb barrier *

Advances in nuclear detection and readout techniques

CSHINE for studies of HBT correlation in Heavy Ion Reactions

Contact Info

Product

Resources

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Relative probabilities of breakup channels in reactions of ^6,7Li with ²⁰⁹Bi at energies around and above the Coulomb barrier *

Relative probabilities of breakup channels in reactions of ^6,7Li with ²⁰⁹Bi at energies around and above the Coulomb barrier *