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1 corded over a short period of time using one photomultiplier.
2 ultaneously to a sample cell and a reference photomultiplier.
3        Light is collected by 12 x 12 silicon photomultipliers.
4 opment of new PET detectors, such as silicon photomultipliers.
5 24 x 1.4 x 9.5 mm(3)) and 210 low-cost 19-mm photomultipliers.
6 s a 10 x 10 x 1 cm NaI(Tl) crystal with four photomultipliers.
7 a new time-of-flight system based on silicon photomultipliers.
8 tion algorithms and other multimodal silicon photomultiplier and non-silicon photomultiplier PET dete
9                               The detectors, photomultipliers and preamps are housed within a 12 cm x
10 ped green laser, an optical train, a channel photomultiplier, and an inertial mass measurement unit a
11      Amplified photoelectron pulses from the photomultiplier are grouped into bins of 360-450 micros
12 xyorthosilicate crystals read out by silicon photomultiplier arrays.
13 red with both a semiconductor photodiode and photomultiplier as light sensing elements.
14 c cytometer (PMC) uses a high-speed scanning photomultiplier-based detector to combine low-pixel-coun
15 d compared to a commercial fluorometer using photomultiplier detection for detecting active Stx2 in t
16                                              Photomultiplier detection is employed, and a lock-in amp
17 velength incident light was measured using a photomultiplier detector and correlated to the organopho
18 d by acousto-optic modulators and electronic photomultiplier gating.
19  of toxicants, using a single photodetector (photomultiplier) is presented.
20  detectors, image sensor arrays, and silicon photomultipliers over a broad spectral range.The perform
21 odal silicon photomultiplier and non-silicon photomultiplier PET detector system designs indicated th
22 integrated with a CT camera, is based on the photomultiplier-quadrant-sharing concept and comprises 1
23 logy have enabled the development of silicon photomultiplier sensor arrays capable of sensing individ
24 MiniPET-3-that uses state-of-the-art silicon photomultiplier (SiPM) photosensors, making possible dua
25 ted microfluidics chips coupled with silicon photomultipliers (SiPMs) for high sensitive real-time AT
26 n counting readout properties of the silicon photomultiplier (SPM) with a thermoelectric cooler and t
27 cted end-on by an optical fiber coupled to a photomultiplier, thus, creating an image of the separati
28 ites, the ECL of luminol is followed using a photomultiplier tube (PMT) or digital camera and the ima
29 2O2 at the anodic poles is monitored using a photomultiplier tube (PMT) or smartphone, and the images
30        Saturation is directly related to the photomultiplier tube (PMT) voltage settings and RNA abun
31 ed by measuring fluorescence over a range of photomultiplier tube (PMT) voltages by determining the P
32              This allows the use of a single photomultiplier tube (PMT), often the most expensive com
33               Compared with the conventional photomultiplier tube (PMT), the results revealed that th
34 ch) directly coupled to a position-sensitive photomultiplier tube (PS-PMT).
35 al to be recorded in one pass using a single photomultiplier tube and eliminates the need for a polar
36  The ring-down signals are monitored using a photomultiplier tube and recorded using a digital oscill
37  The ring-down signals are monitored using a photomultiplier tube and recorded using a digital oscill
38 has a high sensitivity because of the use of photomultiplier tube but also can get multiple-point dat
39 on crystals that are coupled to a 64-channel photomultiplier tube by optical fibers.
40 c control, (b) an integrated (and motorized) photomultiplier tube for chemiluminescent detection, and
41            The mass detection limits using a photomultiplier tube for sucrose and glucose are 50 ng,
42 parent screen directly on top of a miniature photomultiplier tube provides the basis of an attractive
43 chondrial oxidation was detectable either by photomultiplier tube recordings of flavoprotein fluoresc
44 ions avoiding the need for correction of the photomultiplier tube signal for the gating sequence.
45 n flow through a resin bed interfaced with a photomultiplier tube through a polycarbonate window.
46 .75 mm each) coupled to a position-sensitive photomultiplier tube via an optical fiber bundle made of
47 ctors such as single-photon avalanche diode, photomultiplier tube, or arrays of such detectors.
48 ne in a small reflective cell located atop a photomultiplier tube, resulting in intense CL.
49 nging waveforms from an impedance mismatched photomultiplier tube.
50 d by a highly sensitive, large-dynamic-range photomultiplier tube.
51 e from tumor cells could be detected using a photomultiplier tube.
52  hollow fibers is detected using a miniature photomultiplier tube.
53 ly continuous light guide to an array of 420 photomultiplier tubes (39-mm diameter) in a hexagonal ar
54                                   Similarly, photomultiplier tubes (PMTs) can generate approximately
55 h the same crystal geometry but conventional photomultiplier tubes (PMTs).
56 ses magnetically shielded position-sensitive photomultiplier tubes and a compact 1-T permanent-magnet
57 th 0.5-mm pixels was coupled to multichannel photomultiplier tubes and evaluated for use as high-reso
58       Because classic PET detectors based on photomultiplier tubes cannot be used in high magnetic fi
59 g 488 and 635 nm lasers with two independent photomultiplier tubes for detection of the FITC and Cy5
60 sparent plastic flow cell placed between two photomultiplier tubes for radiometric detection.
61 e (GSO) crystals to 288 (36 x 8 array) 39-mm photomultiplier tubes in a hexagonal arrangement.
62 n light is transmitted to position-sensitive photomultiplier tubes via optical light guides.
63 ons in aqueous media that can be detected by photomultiplier tubes with good sensitivity, without the
64  iodide crystal, a 2 x 2 array of 53 x 53 mm photomultiplier tubes, and a parallel-hole collimator (1
65 the flat-panel multianode position-sensitive photomultiplier tubes.
66 ar polarizations and collected onto separate photomultiplier tubes.
67                                    Adjusting photomultiplier voltage while measuring fluorescence int
68 PET/CT devices, including the replacement of photomultipliers with avalanche photodiodes and the need

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