ライフサイエンスコーパス: thermocouple

1 tenna to couple the IR energy to a nanoscale thermocouple.

2 a chamber reduced beyond the dimensions of a thermocouple.

3 was measured by a rectal probe attached to a thermocouple.

4 le, and tip temperature was monitored with a thermocouple.

5 opt)) is 1.0 x 10(-5) for this type of Ag-Ni thermocouple.

6 the performance of the microfabricated Ni-Ag thermocouple.

7 long paired helices function as a molecular thermocouple.

8 e the output power and the efficiency of the thermocouple.

9 re temperature measurement using an embedded thermocouple.

10 The thermocouple also provides real-time droplet temperature

11 been improved with the addition of a type-K thermocouple and a custom heater control circuit for dir

12 oints of contact between the droplet and the thermocouple and the Teflon film on the heater surfaces.

13 Au-coated probe featuring embedded nanoscale thermocouples and a heated planar Au substrate that were

14 ermal dynamics were monitored using invasive thermocouples and non-invasive FLIR imaging, yielding de

15 nd was based on in situ monitoring of xylem (thermocouples) and surface temperatures (infrared imagin

16 een proposed, such as radiation thermometry, thermocouple based contact thermometry, scanning thermal

17 ctrostatic voltage is formed in the proposed thermocouple by the induced electrostatic potentials at

18 While conventional thermocouples can track product temperature, they are in

19 ce visualization beyond tumor margins, while thermocouples confirmed cytotoxic temperatures approxima

20 changes were measured with a copper constant thermocouple contained within a 21 gauge hypodermic need

21 t the output power and the efficiency of the thermocouple could be enhanced up to four times those of

22 Leaf thermocouple data from multiple sites across the tropics

23 Based on this finding, a new thermocouple design that uses low doping legs and high d

24 iency up to four times those of the original thermocouple design with the same leg doping densities.

25 ow temperature exotherms; LTEs) using needle thermocouples during 2D imaging as buds were cooled with

26 Ablations with dual thermocouple electrodes achieved higher measured tempera

27 eratures measured with chronically implanted thermocouple electrodes in rats.

28 adherence occurred less frequently with dual thermocouple electrodes than with single, centered therm

29 chamber axis were measured using a series of thermocouples fitted axially on the combustion chamber w

30 To test this, we monitored sniffing using a thermocouple in the nasal cavity and whisking with an el

31 We impaled thermocouples in taxidermy mounts to further quantify th

32 tom-fabricated scanning probes with embedded thermocouples, in conjunction with new microdevices capa

33 The analytical model developed for the new thermocouple indicated that its efficiency and power out

34 sensitive pyrometer was calibrated against a thermocouple inserted into a 550-nL PCR chamber and used

35 Core temperatures (Tcs) were recorded using thermocouples inserted 2 cm into the colon.

36 noassay; Tc was monitored continuously using thermocouples inserted 5 cm into the colon.

37 Local temperature measurement (e.g., with a thermocouple) is typically used to monitor/control adsor

38 A single thermocouple made of Silicon semiconductors was simulate

39 e imaging showed minimal zonular stress, and thermocouple measurements demonstrated negligible AC tem

40 We chronically implanted thermocouple microsensors in the nucleus accumbens (a br

41 Tract ablation with thermocouple-monitored RF energy decreased postprocedura

42 US and thermocouple monitoring of the procedure were performed

43 chemical extracts by using microcalorimetry, thermocouples, or pyroelectric films, all of which affor

44 Each slab was mounted such that a thermocouple placed in contact with dentin opposite the

45 stor were compared with electrodes with dual thermocouples placed at opposite ends and on opposing si

46 teotomies were made for each subgroup with a thermocouple positioned intra-bone (1 mm distant from th

47 Using a thermocoupled power meter, it is possible to measure the

48 This paper presents a microneedle thermocouple probe designed for temperature measurements

49 ) were instrumented with micromanometers and thermocouple probes.

50 tal of 259 cryoballoon and 229 tissue tissue thermocouples profiles during 53 cryoablations of 40 PVs

51 Nine surface thermocouples provide temperature feedback to a propriet

52 for measurement of leaf water potential by a thermocouple psychrometer method and for measurement of

53 ependently triangulated from individual leaf thermocouples, pyrgeometers and remote sensing (ECOSTRES

54 Gold-standard thermocouple readings and fluorescence-based temperature

55 Simultaneous LFP and thermocouple recordings revealed the 80-130 Hz rhythm wa

56 s played a significant role in enhancing the thermocouple's efficiency and power output.

57 tion for and the numerical simulation of the thermocouple showed that the electrostatic voltage, as a

58 An ultrafine thermocouple technique was developed to measure retinal

59 Anterior chamber (AC) thermocouple temperature measurements were evaluated in

60 chieved in a 1.7-microl chamber containing a thermocouple that allowed for accurate control of temper

61 Ablation was performed with device thermocouples that permitted real-time monitoring of the

62 he need for calibrating the pyrometer with a thermocouple, the on-chip calibration of pyrometer was a

63 inactivated when in direct contact with the thermocouple, this was circumvented with the polyimide c

64 The other housed a thermocouple to measure local temperature.

65 e use a single, two-junction 25 mum diameter thermocouple to measure the temperature change.

66 ed scanning probes with integrated nanoscale thermocouples to investigate heat dissipation in the ele

67 cond high-speed visible light camera and two thermocouples to provide insight into the film formation

68 bedded tip (for rapid cooling) and 6 surface thermocouples to reflect tissue temperature.

69 were dependent on the distance of the tissue thermocouples to the balloon surface (r=0.85; P<0.001).

70 The 808 nm NIR laser module with thermocouple was employed for functional studies upon NI

71 Calibration of the sensor against a thermocouple was performed while heating the microchip i

72 Thermocouples were implanted in the atrial muscle of the

73 Laser Doppler flow probes, tissue PO2, and thermocouples were implanted in the cerebral cortices of

74 Two thermocouples were placed between the mechanical cone an

75 esulting from field exposures did not occur, thermocouples were placed into several eggs at the site

76 The tissue thermocouples were placed on the epicardial surface of t

77 Thermocouples were placed to measure core and brain temp

78 Thermocouples were used to measure the eluent temperatur

79 ld be enhanced up to four times those of the thermocouple without the emitters.