ライフサイエンスコーパス: thermometry

1 on of Andean IOA deposits by using magnetite thermometry.

2 past 65 million years using clumped isotope thermometry.

3 e upconversion quantum yield and luminescent thermometry.

4 toring its temperature by magnetic resonance thermometry.

5 es, we measure the Nernst effect via on-chip thermometry.

6 ut such approaches have yet to be applied to thermometry.

7 f molecular Eu(II) compounds in luminescence thermometry.

8 ingly featured in recent progress in optical thermometry.

9 GHz into a temperature rise measured by d.c. thermometry.

10 ions such as infrared imaging and noncontact thermometry.

11 luctuations in temperature with luminescence thermometry.

12 ating the complexities of fluorescence-based thermometry.

13 CO(2) isotopologues used for clumped isotope thermometry.

14 for targeted drug delivery without real-time thermometry.

15 participants were treated without real-time thermometry.

16 d with B-mode guidance and without real-time thermometry.

17 an additional axis during magnetic resonance thermometry.

18 ture are rare due to challenges of nanoscale thermometry.

19 ns in, for example, metrology, detectors and thermometry.

20 nge energy, and also by the lack of reliable thermometry.

21 ination of local laser heating and nanoscale thermometry.

22 combined to one image and magnetic resonance thermometry.

23 ture sensors confirm the accuracy of the NMR thermometry.

24 nder closed-loop temperature control with MR thermometry.

25 oplets undergoing free evaporation via Raman thermometry.

26 cted into vacuum have been studied via Raman thermometry.

27 in the use of tympanic thermometry than oral thermometry.

28 w, on the basis of carbonate clumped isotope thermometry, (87)Sr/(86)Sr isotope ratios, trace element

29 al clumped isotope (Delta(47) and Delta(48)) thermometry, a technique that resolves mineralization te

30 Here, we use clumped isotope thermometry-a method that sidesteps limitations of conve

31 ere compared with whole brain chemical shift thermometry acquired in 30 healthy human subjects (15 ma

32 s and approaches the sensitivity of (1)H MRI thermometry agents; however, environmental persistence,

33 pose the artificial intelligence velocimetry-thermometry (AIVT) method to reconstruct a continuous an

34 Additionally, NMR thermometry allows nonequilibrium temperatures in analyt

35 This non-contact, non-invasive thermometry allows thermal imaging of very low intensity

36 MR imaging thermometry and dosimetry provide an index to predict th

37 in nanoscale imaging, sensing, luminescence thermometry and energy conversion.

38 surface cooling in Antarctica using borehole thermometry and firn properties in seven ice cores.

39 yond the diffraction limit of light, optical thermometry and force sensing with (sub)micron spatial r

40 ection, obtained by combining particle image thermometry and Lagrangian particle tracking.

41 Raman spectroscopy of carbonaceous material thermometry and literature data from the restored upper

42 s for flexural modes and can be used in fast thermometry and mass sensing during atomic absorption/de

43 omic chemo- and mechano-sensors, noninvasive thermometry and optical pH sensors, electroluminescence,

44 Here we show that the combination of Raman thermometry and scanning thermal microscopy (SThM) can e

45 lso discuss possible pathways to apply Raman thermometry and SThM techniques to nanoscale and vertica

46 ish displacement methods), heating (infrared thermometry), and artifact production (beef phantom) wer

47 for spectroscopy, dynamic scene projection, thermometry, and remote gas sensing.

48 ch as neuromorphic computing, atomic clocks, thermometry, and sensing.

49 e geographical distribution, clumped-isotope thermometry, and stable isotope signature of carbonate m

50 ication was confirmed via visual inspection, thermometry, and X-ray uCT.

51 ion highlight a new lead fluorous liquid for thermometry applications.

52 Magnetic resonance (MR) thermometry, as well as structural imaging, angiography,

53 dio-frequency STM have allowed us to perform thermometry at the nanometre scale.

54 ions, including mid-IR imaging, luminescence thermometry, (bio)sensing, optical data processing and n

55 ance the spin coherence times accessible for thermometry by 45-fold, corresponding to a 7-fold improv

56 R measurements to examine the performance in thermometry by comparing the results to those of the con

57 Further, we show that dual clumped isotope thermometry can achieve reliable palaeotemperature recon

58 data, we show that carbonate clumped-isotope thermometry can be used to detect and reconstruct prehis

59 NMR thermometry can measure temperature non-invasively, but

60 l therapies, during which magnetic resonance thermometry can serve as a reliable treatment control mo

61 Clumped methane thermometry can therefore provide constraints on the gen

62 Here, we demonstrate a high-speed microscopy/thermometry capability that enables ~ us time and ~ um s

63 study evaluates the performance of temporal thermometry compared with oral thermometry in detecting

64 A first implementation of this seismic ocean thermometry constrains temperature anomalies averaged ac

65 Thermometry data reveal that the deposits formed under a

66 on resonance frequency shift thermometry (MR thermometry) data acquired during treatments of essentia

67 , using highly sensitive thin-film resistive thermometry, direct electrocaloric temperature changes a

68 Our finding suggests that infrared ear thermometry does not show sufficient agreement with an e

69 -scan 2D motion correction, and undersampled thermometry enabled temperature monitoring in the myocar

70 discuss recent developments in optical (nano)thermometry, focusing on the incorporation of luminescen

71 l tissue, using real-time magnetic resonance thermometry for intraoperative monitoring.

72 Luminescence (nano)thermometry has exploded in popularity, offering a remot

73 Although nanoscale thermometry has gained much recent interest, existing th

74 Intracellular thermometry has recently demonstrated temperatures in th

75 could be practically leveraged for sensitive thermometry in a wide variety of biological and microsca

76 e of temporal thermometry compared with oral thermometry in detecting fever in Black and White patien

77 l contrast agent was effective at in vivo MR thermometry in liver but not in kidney.

78 st 25 years have seen tremendous progress in thermometry in the moderate temperature range (1 K to 12

79 r technique improves the state-of-the-art in thermometry in the sub-nK regime.

80 Here, we use time-resolved optical thermometry in-situ to show that the energy flux from a

81 Species-specific Mg/Ca thermometry indicates that P. calcariformata precipitate

82 hat is undetectable with diffraction limited thermometry, indicating the potential of this technique

83 Rectal probe thermometry is commonly used to measure body core temper

84 Infrared ear thermometry is frequently used in children, because this

85 Non-contact luminescence decay time thermometry is often the method of choice for such appli

86 (1)H MRI-based thermometry is used clinically but is susceptible to err

87 TBA), a perfluorocarbon liquid for (19)F MRI thermometry, is based on chemical shift responsiveness a

88 nduced heat sources with sensitive nanoscale thermometry, it may also be possible to engineer biologi

89 Applied to line-intensity ratio thermometry (LRT), our technique determines gas temperat

90 r measurement than traditional Johnson noise thermometry, making it potentially attractive for metrol

91 Here, we perform single-particle thermometry measurements to investigate the link between

92 We perform intracellular thermometry measurements using fluorescent polymeric the

93 arget areas were sonicated with real-time MR thermometry monitoring, excluding critical areas from th

94 c resonance proton resonance frequency shift thermometry (MR thermometry) data acquired during treatm

95 ed to re-purposed use of noncontact infrared thermometry (NCIT) for temperature screening.

96 we propose to use the degree of demixing for thermometry of a binary bosonic mixture trapped in an op

97 We also demonstrate in vivo MR thermometry of BAT by hyperpolarized xenon gas.

98 thermal activation with simultaneous online thermometry of individual cells expressing genetically e

99 camera-based real-time large-area spin-based thermometry of living cells.

100 Clumped carbonate thermometry of soapstone yields a formation (or equilibr

101 Precision thermometry of the skin can, together with other measure

102 This proposed application of NMR thermometry offers sufficient spatial and temporal resol

103 Thermometry performed during the treatments of 64 fibroi

104 A thermometry platform is devised to extract, for the firs

105 record, which is enabled by (i) a low-noise thermometry platform with ultralow long-term (10-h) temp

106 Oxygen-isotope thermometry played a critical role in the rise of modern

107 tion thermometry, thermocouple based contact thermometry, scanning thermal microscopy, scanning trans

108 We identify a ratiometric thermometry signal and maintain imaging resolution bette

109 ngle-shot photoluminescence lifetime imaging thermometry (SPLIT).

110 ting of the substrate surface by a molecular thermometry strategy indicated the temperature to be abo

111 rs in diamond were mapped out via an optical thermometry system with an accuracy of +/-50 K and a 1 m

112 Here we present a new NMR thermometry technique that circumvents these problems by

113 Our demonstration uses a novel thermometry technique that relies on relative photodisso

114 temperature sensitivity of our spectroscopic thermometry technique.

115 Recently, several thermometry techniques have been proposed, such as radia

116 herefore, the development of high-resolution thermometry techniques is required to understand the hea

117 We demonstrate fluorescence thermometry techniques with sensitivities approaching 10

118 in experienced nurses in the use of tympanic thermometry than oral thermometry.

119 e we demonstrate a new approach to nanoscale thermometry that uses coherent manipulation of the elect

120 niques have been proposed, such as radiation thermometry, thermocouple based contact thermometry, sca

121 rostructure, enabling Raman spectroscopy and thermometry to be obtained from the graphene top electro

122 We found oral thermometry to be the most accurate and reproducible met

123 data demonstrate the potential of magnetite thermometry to better constrain the thermal evolution of

124 We applied clumped isotope thermometry to carbonates from the central Chinese Loess

125 is method enables element(isotope)-sensitive thermometry to detect the instantaneous temperature rise

126 We used clumped isotope thermometry to determine body temperatures from the foss

127 o the demand for real-time multi-dimensional thermometry to evaluate the treatment effectiveness, whi

128 Temperature images were acquired using MR thermometry to provide an estimate of in vivo brain temp

129 MR-images used to confirm targeting, and MR-thermometry used to monitor the thermal dose delivered.

130 20 males, 20 females, 20-40 years) for brain thermometry using magnetic resonance spectroscopy.

131 h is precisely measured by in vivo nanoscale thermometry using quantum defects in nanodiamonds.

132 MR thermometry was acquired to monitor the temperature chan

133 Remote thermometry was also performed.

134 300-mum) proton resonance frequency shift MR thermometry was interleaved with ablations.

135 Remote thermometry was performed 20 mm from the electrode.

136 MR thermometry was performed during sonications.

137 MR thermometry was successful in all sonications and cases.

138 y kinetic tear interference images, infrared thermometry, water evaporation rate, tear break-up time,

139 Using "clumped" isotope thermometry we find that the carbonates in ALH84001 prec

140 Using clumped isotope thermometry, we produced high-resolution reconstructions

141 Employing high-sensitivity Johnson noise thermometry, we report an order of magnitude increase in

142 Diameters of isotherms created from thermometry were compared with the resulting lesions by

143 Data showing evaporation rate and thermometry were compared with those of 10 normal subjec

144 ocused ultrasound (MRgFUS) and real-time MRI thermometry were used to monitor the therapy in a rat br

145 y to the gas is followed by single-parameter thermometry, which determines the empirical temperature

146 Fluorescence-based thermometry, which utilizes intensity, lifetime, polariz

147 In this study, by using magnetic resonance thermometry with hyperpolarized xenon, we produce the fi

148 motion, demonstrating a path toward absolute thermometry with quantum mechanically calibrated ticks.

149 cal and microwave waveguide delivery enables thermometry with single-cell resolution, allowing neuron

150 equency spectrum provides spatially resolved thermometry with subnanokelvin resolution.

151 peratures which, along with light scattering thermometry, would open avenues for producing and charac