Single photon response of photomultiplier tubes

Abstract Signal-induced noise is observed in Hamamatsu R11265 Multianode Photomultiplier Tubes, manifesting up to several microseconds after the single photoelectron response signal and localised in specific anodes. The mean number of noise pulses varies between devices, and shows significant dependence on the applied high-voltage. The characterisation of this noise and the mitigation strategies to perform optimal single-photon counting at 40 MHz, as required by the LHCb Ring-Imaging Cherenkov detectors, are reported.

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Diffusion of the Second Messengers in the Cytoplasm Acts as a Variability Suppressor of the Single Photon Response in Vertebrate Phototransduction

Biophysical Journal ◽

10.1529/biophysj.107.114058 ◽

2008 ◽

Vol 94 (9) ◽

pp. 3363-3383 ◽

Cited By ~ 30

Author(s):

Paolo Bisegna ◽

Giovanni Caruso ◽

Daniele Andreucci ◽

Lixin Shen ◽

Vsevolod V. Gurevich ◽

...

Keyword(s):

Single Photon ◽

Second Messengers ◽

Single Photon Response

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Analytical Study of Front-End Circuits Coupled to Silicon Photomultipliers for Timing Performance Estimation under the Influence of Parasitic Components

Sensors ◽

10.3390/s20164428 ◽

2020 ◽

Vol 20 (16) ◽

pp. 4428

Author(s):

Pietro Antonio Paolo Calò ◽

Savino Petrignani ◽

Michele Di Gioia ◽

Cristoforo Marzocca

Keyword(s):

Single Photon ◽

Performance Estimation ◽

Laser Source ◽

Detector Response ◽

Silicon Photomultipliers ◽

Parasitic Inductance ◽

Front End ◽

Single Photon Response ◽

Variable Configuration ◽

Definition Of

Full exploitation of the intrinsic fast timing capabilities of analog silicon photomultipliers (SiPMs) requires suitable front-end electronics. Even a parasitic inductance of a few nH, associated to the interconnections between the SiPM and the preamplifier, can significantly degrade the steepness of the detector response, thus compromising the timing accuracy. In this work, we propose a simple analytic expression for the single-photon response of a SiPM coupled to the front-end electronics, as a function of the main parameters of the detector and the preamplifier, taking into account the parasitic inductance. The model is useful to evaluate the influence of each parameter of the system on the slope of its response and to guide the designer in the definition of the architecture and the specifications for the front-end electronics. The results provided by the model have been successfully compared with experimental measurements from a front-end circuit with variable configuration based on a bipolar junction transistor (BJT), coupled to a 3 × 3 mm2 SiPM stimulated by a fast-pulsed laser source.

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Method For Measuring Sub-Micron Facula At Single-Photon Level With Silicon Photomultiplier

10.21203/rs.3.rs-1050434/v1 ◽

2021 ◽

Author(s):

Yaxian Yang ◽

Guoqing Zhang ◽

Chen Zhang ◽

Xinyue Cao ◽

Lina Liu ◽

...

Keyword(s):

Single Photon ◽

Dimensional Space ◽

Avalanche Photodiode ◽

Objective Lens ◽

Silicon Photomultiplier ◽

Silicon Photomultipliers ◽

Positioning Stage ◽

Weak Light ◽

Single Photon Response ◽

Nominal Resolution

Abstract Sub-micron faculae (light spots) at the single-photon level have important applications in many fields. This report demonstrates a method for measuring facula size at the sub-micron single-photon level indirectly. The developed method utilizes Silicon Photomultipliers (SiPMs) as the single-photon response detectors, combined with a nano-positioning stage. The approach involves one- or two-dimensional space scanning and a deconvolution operation, which enable evaluations of the size and spatial distribution of focused facula in a single-photon-level pulsed laser. The results indicate that the average full width at half maximum of the faculae is about 0.66 µm, which is close to the nominal resolution of the objective lens of the microscope (0.42 µm). The proposed method has two key advantages: (1) it can measure sub-micron facula at the single-photon level, and (2) the sub-micron facula can easily be aligned with the detector because the array area of the avalanche photodiode cells in SiPM is usually larger than one square millimeter, and there is no need to put an optical slit, knife edge, or pinhole in front of the detector. The method described herein is applicable in weak light facula detection related fields.

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Multichannel Photon Counting Lidar Measurements Using USB-based Digital Storage Oscilloscope

Communications in Physics ◽

10.15625/0868-3166/29/3si/14332 ◽

2019 ◽

Vol 29 (3SI) ◽

pp. 351

Author(s):

Dinh-V - Trung ◽

Thanh Binh Nguyen ◽

Duy Thang Dao ◽

Van Hai Bui ◽

Xuan Tu Nguyen ◽

...

Keyword(s):

Single Photon ◽

Photon Counting ◽

Lidar Signal ◽

Photomultiplier Tubes ◽

Storage Oscilloscope ◽

Simple Method ◽

Software Interface ◽

Digital Storage ◽

Digital Storage Oscilloscope ◽

Lidar Measurements

We present a simple method of making multichannel photon counting measurements of weak lidar signal from large ranges, using commonly available USB-based digital storage oscilloscopes. The single photon pulses from compact photomultiplier tubes are amplified and stretched so that the pulses are large and broad enough to be sampled efficiently by the USB oscilloscopes. A software interface written in Labview is then used to count the number of photon pulses in each of the prescribed time bins to form the histogram of LIDAR signal. This method presents a flexible alternative to the modular multichannel scalers and facilitate the development of sensitive lidar systems.

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Cross talk study to the single photon response of a flat panel PMT for the RICH upgrade at LHCb

2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC) ◽

10.1109/nssmic.2009.5402287 ◽

2009 ◽

Author(s):

C. Arnaboldi ◽

M. Artuso ◽

M. Calvi ◽

E. Fanchini ◽

C. Gotti ◽

...

Keyword(s):

Cross Talk ◽

Single Photon ◽

Flat Panel ◽

The Rich ◽

Single Photon Response

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Implications of dimeric activation of PDE6 for rod phototransduction

Open Biology ◽

10.1098/rsob.180076 ◽

2018 ◽

Vol 8 (8) ◽

pp. 180076 ◽

Cited By ~ 10

Author(s):

Trevor D. Lamb ◽

Martin Heck ◽

Timothy W. Kraft

Keyword(s):

Single Photon ◽

Electrical Response ◽

Hydrolytic Activity ◽

Two Dimensional ◽

Driving Function ◽

Disc Membrane ◽

Continuous Noise ◽

Spontaneous Activation ◽

Single Photon Response ◽

Quantitative Explanation

We examine the implications of a recent report providing evidence that two transducins must bind to the rod phosphodiesterase to elicit significant hydrolytic activity. To predict the rod photoreceptor's electrical response, we use numerical simulation of the two-dimensional diffusional contact of interacting molecules at the surface of the disc membrane, and then we use the simulated PDE activity as the driving function for the downstream reaction cascade. The results account for a number of aspects of rod phototransduction that have previously been puzzling. For example, they explain the existence of a greater initial delay in rods than in cones. Furthermore, our analysis suggests that the ‘continuous’ noise recorded in rods in darkness is likely to arise from spontaneous activation of individual molecules of PDE at a rate of a few tens per second per rod, probably as a consequence of spontaneous activation of transducins at a rate of thousands per second per rod. Hence, the dimeric activation of PDE in rods provides immunity against spontaneous transducin activation, thereby reducing the continuous noise. Our analysis also provides a coherent quantitative explanation of the amplification underlying the single photon response. Overall, numerical analysis of the dimeric activation of PDE places rod phototransduction in a new light.

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Fluctuations of the Single Photon Response in Visual Transduction

10.1063/1.2036813 ◽

2005 ◽

Cited By ~ 1

Author(s):

Lixin Shen

Keyword(s):

Single Photon ◽

Visual Transduction ◽

Single Photon Response

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Optimization of Single-Photon Response Transmission at the Rod-to-Rod Bipolar Synapse

Physiology ◽

10.1152/physiol.00007.2007 ◽

2007 ◽

Vol 22 (4) ◽

pp. 279-286 ◽

Cited By ~ 19

Author(s):

Haruhisa Okawa ◽

Alapakkam P. Sampath

Keyword(s):

Light Absorption ◽

Single Photon ◽

Absolute Threshold ◽

Bipolar Cells ◽

Physiological Mechanisms ◽

Rod Photoreceptors ◽

Dim Light ◽

Single Photon Response ◽

Rod Bipolar Cells

Our ability to see in dim light is limited by the statistics of light absorption in rod photoreceptors and the faithful transmission of the light-evoked signals through the retina. This article reviews the physiological mechanisms at the synapse between rods and rod bipolar cells, the first relay in a pathway that mediates vision near absolute threshold.

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