Journal articles: 'Temperature recording'

1

Eyong, E., and D. J. Burch. "Hazard of recording vaginal temperature." BMJ 295, no. 6613 (December 19, 1987): 1653. http://dx.doi.org/10.1136/bmj.295.6613.1653.

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Knezacek, T. D., A. A. Olkowski, P. J. Kettlewell, M. A. Mitchell, and H. L. Classen. "Temperature gradients in trailers and changes in broiler rectal and core body temperature during winter transportation in Saskatchewan." Canadian Journal of Animal Science 90, no. 3 (September 1, 2010): 321–30. http://dx.doi.org/10.4141/cjas09083.

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Temperature conditions inside commercial trailers transporting market-age broilers during four winter journeys were measured, and changes in the rectal and core body temperature of birds were quantified. Pre-selected modules were equipped with data loggers recording temperature every 72 s. Rectal temperatures were taken from eight birds in each of four modules immediately before and after each trip, and two or three birds, with temperature recording implants, were placed in each of two selected modules. Temperature heterogeneity was found among modules on all loads with average crate temperatures ranging from 10.9 to 30.7, 8.9 to 28.1, 2.5 to 26.1 and -0.7 to 16.5°C for transportation times of 191, 193, 178 and 18 min and ambient temperatures of -7.1, -27.1, -28.2 and -18.4°C, respectively. Wet birds, condensation and frost provided evidence for moisture accumulation during transportation. Body temperature recordings indicated the potential for the development of both hypothermia and hyperthermia, showing that cold stress can occur near air inlets and heat stress in poorly ventilated areas. Passive ventilation inside trailers resulted in crate temperatures 17.7 to 55.2°C above outside temperature. Mortality ranged from 0.7 to 1.4% but several deaths occurred during lairage, prior to processing. A heterogeneous distribution of airflow resulted in undesirable temperate and humidity conditions for some birds. Key words: Broiler, transportation, temperature gradient, mortality, cold weather

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3

Rogers, Margaret. "Temperature recording in infants and children." Paediatric Nursing 4, no. 3 (April 1992): 23–26. http://dx.doi.org/10.7748/paed.4.3.23.s20.

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4

Takeda, Takayuki, Katsumichi Tagami, and Takaaki Watanabe. "Overwrite temperature dependence for magnetic recording." Journal of Applied Physics 63, no. 8 (April 15, 1988): 3438–40. http://dx.doi.org/10.1063/1.340759.

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5

Hutton, D. R., and I. Lecis. "A simple multichannel temperature recording system." Journal of Physics E: Scientific Instruments 18, no. 10 (October 1985): 822–23. http://dx.doi.org/10.1088/0022-3735/18/10/002.

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6

McDaniel, T. W., and M. R. Madison. "Writing temperature estimation in thermomagnetic recording." IEEE Transactions on Magnetics 26, no. 5 (1990): 2834–36. http://dx.doi.org/10.1109/20.104892.

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7

Rahman, Nilufar, Fouzia Binte Kasem, Md Reazul Islam, Md Rafiqul Islam, Rezina Sultana, and Abdul Matin. "Comparison Between Mercury and Liquid Crystal Forehead Thermometers for Measurment of Body Temperature." Journal of Shaheed Suhrawardy Medical College 4, no. 2 (April 3, 2013): 60–61. http://dx.doi.org/10.3329/jssmc.v4i2.14421.

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Background: Body temperature is a measure of the body's ability to generate and get rid of heat. For recording of body temperature several different types of thermometers are available, such as mercury thermometers, digital thermometer, liquid crystal forehead thermometer, and infrared tympanic thermometer are used. The accuracy of the device is to record and grade temperature is uncertain. Objective: The study was carried out the recordings of normal body temperature using liquid crystal forehead thermometer and compare with gold standard oral mercury thermometer. Methodology: Simultaneous recording were made using the two devise in randomly enrolled 150 apparently healthy medical student eighteen (18) to twenty (20) years age of either sex. Written & verbal consent was taken from the students without any coercion. Oraltemperature was recorded with Chinese made mercury thermometer and the forehead temperature was recorded using liquid crystal (Boots, UK) thermometer. Results: No statistical significant difference existed between the recordings of two devices. The mean difference was 0.8 degree. Liquid crystal forehead thermometer recorded higher temperatures. Both the devices recorded temperature within normal range. Conclusions: Sensitivity of liquid-crystal thermometer to detect body temperature is comparable with that of mercury thermometer. It is a good device for home use but health providers should not use it. Mercury thermometer remains the gold standard. DOI: http://dx.doi.org/10.3329/jssmc.v4i2.14421 J Shaheed Suhrawardy Med Coll, 2012;4(2):60-61

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Shaw, Gorky, Sylvain Blanco Blanco Alvarez, Jérémy Brisbois, Loïc Burger, Lincoln B. L. G. Pinheiro, Roman B. G. Kramer, Maycon Motta, et al. "Magnetic Recording of Superconducting States." Metals 9, no. 10 (September 20, 2019): 1022. http://dx.doi.org/10.3390/met9101022.

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Local polarization of magnetic materials has become a well-known and widely used method for storing binary information. Numerous applications in our daily life such as credit cards, computer hard drives, and the popular magnetic drawing board toy, rely on this principle. In this work, we review the recent advances on the magnetic recording of inhomogeneous magnetic landscapes produced by superconducting films. We summarize the current compelling experimental evidence showing that magnetic recording can be applied for imprinting in a soft magnetic layer the flux trajectory taking place in a superconducting layer at cryogenic temperatures. This approach enables the ex situ observation at room temperature of the imprinted magnetic flux landscape obtained below the critical temperature of the superconducting state. The undeniable appeal of the proposed technique lies in its simplicity and the potential to improve the spatial resolution, possibly down to the scale of a few vortices.

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Chan, Benny K. K., Fernando P. Lima, Gray A. Williams, Rui Seabra, and Hui‐Yu Wang. "A simplified biomimetic temperature logger for recording intertidal barnacle body temperatures." Limnology and Oceanography: Methods 14, no. 7 (April 7, 2016): 448–55. http://dx.doi.org/10.1002/lom3.10103.

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Quaade, U. J., K. Stokbro, R. Lin, and F. Grey. "Single-atom reversible recording at room temperature." Nanotechnology 12, no. 3 (August 23, 2001): 265–72. http://dx.doi.org/10.1088/0957-4484/12/3/311.

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11

Steward, Edward L. "Recording Pressure and Melt Temperature in Extrusion." Journal of Coated Fabrics 28, no. 2 (October 1998): 131–44. http://dx.doi.org/10.1177/152808379802800206.

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12

Holtslag, A. H. M. "Calculations on temperature profiles in optical recording." Journal of Applied Physics 66, no. 4 (August 15, 1989): 1530–43. http://dx.doi.org/10.1063/1.344493.

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13

Zhukov, L. F., and M. I. Smirnov. "Instrumentation for temperature control, recording, and display." Glass and Ceramics 49, no. 6 (June 1992): 259–60. http://dx.doi.org/10.1007/bf00677147.

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14

Suchocki, A., B. Koziarska, T. Langer, and J. M. Langer. "Room-temperature holographic grating recording in CdF2:Ga." Applied Physics Letters 70, no. 22 (June 2, 1997): 2934–36. http://dx.doi.org/10.1063/1.118748.

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15

Chhatwal, Jugesh, Abraham Paulose, P. V. Varughese, and Atul Goel. "Temperature recording in neonates - where and how long?" Journal of Neonatology 25, no. 1 (March 2011): 45–48. http://dx.doi.org/10.1177/0973217920110108.

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16

NOEL, M., and T. J. BELLERBY. "THERMAL ARCHAEOLOGICAL SURVEYING: A RECORDING SOIL TEMPERATURE PROBE." Archaeometry 32, no. 1 (February 1990): 83–90. http://dx.doi.org/10.1111/j.1475-4754.1990.tb01084.x.

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17

Nayagam, D., S. Shah, and D. S. Fairweather. "Which Route for Recording Temperature in the Old?" Clinical Science 71, s15 (January 1, 1986): 16P. http://dx.doi.org/10.1042/cs071016p.

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18

Betz, Gabriele, Pascale Junker Bürgin, and Hans Leuenberger. "Power consumption measurement and temperature recording during granulation." International Journal of Pharmaceutics 272, no. 1-2 (March 2004): 137–49. http://dx.doi.org/10.1016/j.ijpharm.2003.12.005.

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19

Höfinger, Siegfried, and Francesco Zerbetto. "A RNA-based nanodevice recording temperature over time." Chemical Physics 369, no. 2-3 (April 2010): 91–95. http://dx.doi.org/10.1016/j.chemphys.2010.03.007.

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20

Sherwin, CM, and KG Johnson. "Skin and abdominal temperatures recorded by data loggers attached to Merino sheep voluntarily staying out of shade." Australian Journal of Agricultural Research 41, no. 4 (1990): 781. http://dx.doi.org/10.1071/ar9900781.

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To investigate individual differences in thermal status of sheep during voluntary shading, a method of recording body temperatures was developed using data loggers attached to free-ranging animals. During summer, recordings were made of body temperatures of Merino wethers grazing irrigated pasture. Despite shade being readily accessible, the sheep voluntarily stayed in the sun throughout the day. Twenty, 24-h records of intra-abdominal temperature and 12 of concurrent skin temperature were obtained. Both core and skin temperatures exhibited diurnal rhythms influenced by ambient conditions. Short-term fluctuations without obvious cause also occurred in both body temperatures. Skin temperatures of the dorsal surface were considerably higher than previously reported. Core temperatures of sheep voluntarily staying in the sun were not hyperthermic. The maximum 24-h range in intra-abdominal temperature (i.e. 1.9�C) does not support previous data (Bligh and Harthoorn 1965) that indicated sheep might be more thermostable than other mammalian species. The effective heat load and thermal displacement were apparently insufficient to cause the sheep to seek shade in competition with other factors influencing their behaviour.

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21

Ancel, A., M. Horning, and G. L. Kooyman. "Prey ingestion revealed by oesophagus and stomach temperature recordings in cormorants." Journal of Experimental Biology 200, no. 1 (January 1, 1997): 149–54. http://dx.doi.org/10.1242/jeb.200.1.149.

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We examined the accuracy of both stomach and oesophagus temperature sensors-deployed on captive Brandt's cormorants-for determination of the mass of food ingested and the number of prey items swallowed. The oesophageal temperature sensor was a better detector of all feeding events, including that of small prey which were missed by the stomach sensor. Adapted to free-ranging animals (and coupled to data loggers for recording seawater temperature), oesophagus temperature recorders, in conjunction with both recordings of energy expenditure (e.g. doubly labelled water, heart rate) and determination of position (e.g. Argos transmitter, time/depth recorder), should provide further important insights into the foraging success of marine endotherms.

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22

SUZUKI, Toshiyuki, and Shoko TAJIRI. "Temperature Effect on Magnetization Stability of Thin Recording Films." Journal of the Magnetics Society of Japan 21, S_2_PMRC_97_2 (1997): S2_309–312. http://dx.doi.org/10.3379/jmsjmag.21.s2_309.

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23

Johnston, Athalie, and David Shorten. "Optimal axillary thermometer placement time for recording neonatal temperature." Australian College of Midwives Incorporated Journal 4, no. 1 (June 1991): 25–27. http://dx.doi.org/10.1016/s1031-170x(05)80217-x.

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24

Hogeweij, G. M. D., P. Mantica, G. Gorini, J. de Kloe, N. J. Lopes Cardozo, and the RTP team. "Recording non-local temperature rise in the RTP tokamak." Plasma Physics and Controlled Fusion 42, no. 10 (October 1, 2000): 1137–44. http://dx.doi.org/10.1088/0741-3335/42/10/310.

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25

Wu, Nan, Chengguo Liu, Bin Zhang, Shuai Zhou, Jingwei Zhang, and Zhi P. Wu. "Wireless bi-directional data link for smart temperature recording." Transactions of the Institute of Measurement and Control 39, no. 4 (November 19, 2016): 420–28. http://dx.doi.org/10.1177/0142331216675402.

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In application systems of the Internet of Things (IoT), real-time monitoring and control of the systems need to be realized with wireless communications from machine to machine (M2M), especially under harsh application scenarios. The data link of the M2M communication has also a critical effect on the system in the application. In this paper, a wireless bi-directional data link for smart temperature recording is reported. The radio frequency hardware employed consists of NRF24L01 wireless transceivers, RFX2401 amplifiers and matching network sand antennas. The microcontroller unit (MCU) is based on the STM32F103VET6 chip, which controls the NRF24L01 by a four-pin serial peripheral interface (SPI) to realize the bi-directional data link, and the sensor data are sampled with 12-bit analogue-to-digital converters (ADCs). The communication is realized as the interrupt request (IRQ) signal of the NRF24L01 changes periodically. A look-up table and a linear optimization method are also implemented to improve the accuracy of ADC data. The bi-directional data link is then applied to a wired heating control system. The results show that temperature data can be transmitted and received over a distance up to 320 m in an open environment and 52 m in an indoor complex environment with the hardware implemented. The real-time temperature data can be displayed on a computer or a handheld device. Wireless M2M communication and control are thus demonstrated.

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26

Sainov, S., and R. Stoycheva-Topalova. "Temperature dependence of holographic recording in 15nm As2S3 film." Vacuum 69, no. 1-3 (December 2002): 365–69. http://dx.doi.org/10.1016/s0042-207x(02)00360-3.

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27

Chen, Y. J., H. Z. Yang, S. H. Leong, K. M. Cher, J. F. Hu, P. Sethi, and W. S. Lew. "Erasure temperature measurements of heat assisted magnetic recording media." Journal of Applied Physics 117, no. 17 (May 7, 2015): 17D117. http://dx.doi.org/10.1063/1.4914362.

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28

Thompson, Carl I., Andrew J. Brannon, and Andrew L. Heck. "Emotional fever after habituation to the temperature-recording procedure." Physiology & Behavior 80, no. 1 (October 2003): 103–8. http://dx.doi.org/10.1016/s0031-9384(03)00224-5.

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29

Katsurada, Yuki, Shuzo Hirata, Kenro Totani, Toshiyuki Watanabe, and Martin Vacha. "Photoreversible On-Off Recording of Persistent Room-Temperature Phosphorescence." Advanced Optical Materials 3, no. 12 (August 17, 2015): 1726–37. http://dx.doi.org/10.1002/adom.201500334.

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30

Manov, Derek V., Rachel E. Abercrombie, and Peter C. Leary. "Reliable and economical high-temperature deep-borehole seismic recording." Bulletin of the Seismological Society of America 86, no. 1A (February 1, 1996): 204–11. http://dx.doi.org/10.1785/bssa08601a0204.

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Abstract Recording earthquakes with borehole seismometers has become increasingly popular in recent years as the advantages in noise reduction and also the distorting effects of near-surface rocks, especially sediments, have become well known. Borehole recording can be extremely complex, involving active sensors, special cables, and downhole electronics. Such installations, however, are often not very reliable at the high temperatures reached in active tectonic areas at depths of 1 km and greater. Here we describe a simple and reliable system for 3-component recording of local earthquakes at single and multiple depths greater than 1.5 km and temperatures up to 120°C. Our system was designed and developed for experiments in the Cajon Pass Scientific Drillhole of Southern California. The borehole packages are made of titanium with spring-loaded clamping, allowing easy retrieval. Standard seven-conductor oil-well logging cables are used together with a specially designed cablehead. The data recorded have been used for investigating earthquake source scaling, attenuation in the mid-crust, and also near-surface site effects.

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31

Lin, Dr Shui Wai, and Dr Lev I. Berger. "New method for recording the onset temperature of superconductivity of high‐temperature superconductors." Review of Scientific Instruments 60, no. 3 (March 1989): 507–8. http://dx.doi.org/10.1063/1.1140412.

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32

Bestmann, Hans Jürgen, and Klaus Dippold. "Temperature Dependence of Electrophysiological Responses of Lepidopteran Antennae." Zeitschrift für Naturforschung C 44, no. 5-6 (June 1, 1989): 333–44. http://dx.doi.org/10.1515/znc-1989-5-601.

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Abstract By recording the temperature dependence of electroantennograms with Lepidoptera antennae optimum curves were obtained, and a hysteresis phenomenon was observed by passing tempera ture cycles. The latter also occur with single cell recording (electrosensillogram) in the receptor potentials as well as in the number of action potentials released per second. The results of the measurements are discussed on a molecular level, a scheme reflects the molecular processes which eventually are involved in the interaction of a signal molecule and receptor region.

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33

Grimsley, Douglas L. "Digital Skin Temperature and Biofeedback." Perceptual and Motor Skills 79, no. 3_suppl (December 1994): 1609–10. http://dx.doi.org/10.2466/pms.1994.79.3f.1609.

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The present study simultaneously compared the skin temperature of the index and the little fingers during hand warming using biofeedback. There was a 5-min. baseline recording followed by a 10-min. session during which subjects attempted to increase skin temperature using the index finger with biofeedback in the form of lights and sound. Analysis showed no significant differences between the temperatures of the index and of the little fingers, but there was a significant increase in temperature during the session for both sites.

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34

Goncalves, S., José Palha, Helena Fernandes, Márcio Souto, Sara Pimenta, Tao Dong, Zhaochu Yang, João Ribeiro, and José Correia. "LED Optrode with Integrated Temperature Sensing for Optogenetics." Micromachines 9, no. 9 (September 17, 2018): 473. http://dx.doi.org/10.3390/mi9090473.

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In optogenetic studies, the brain is exposed to high-power light sources and inadequate power density or exposure time can cause cell damage from overheating (typically temperature increasing of 2 ∘ C). In order to overcome overheating issues in optogenetics, this paper presents a neural tool capable of assessing tissue temperature over time, combined with the capability of electrical recording and optical stimulation. A silicon-based 8 mm long probe was manufactured to reach deep neural structures. The final proof-of-concept device comprises a double-sided function: on one side, an optrode with LED-based stimulation and platinum (Pt) recording points; and, on the opposite side, a Pt-based thin-film thermoresistance (RTD) for temperature assessing in the photostimulation site surroundings. Pt thin-films for tissue interface were chosen due to its biocompatibility and thermal linearity. A single-shaft probe is demonstrated for integration in a 3D probe array. A 3D probe array will reduce the distance between the thermal sensor and the heating source. Results show good recording and optical features, with average impedance magnitude of 371 k Ω , at 1 kHz, and optical power of 1.2 mW·mm − 2 (at 470 nm), respectively. The manufactured RTD showed resolution of 0.2 ∘ C at 37 ∘ C (normal body temperature). Overall, the results show a device capable of meeting the requirements of a neural interface for recording/stimulating of neural activity and monitoring temperature profile of the photostimulation site surroundings, which suggests a promising tool for neuroscience research filed.

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35

Давиденко, Н. А., И. И. Давиденко, В. В. Кравченко, А. И. Маринин, Е. В. Мокринская, В. А. Павлов, В. В. Тарасенко, and Н. Г. Чуприна. "Запись поляризационных голограмм в пленках сополимеров 4-((2-бром-4-нитрофенил)диазенил)фенилметакрилата." Журнал технической физики 126, no. 2 (2019): 197. http://dx.doi.org/10.21883/os.2019.02.47203.85-18.

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AbstractRecording media for polarization holography have been created on the basis of 4-((2-bromo-4-nitrophenyl)diazenyl)phenyl methacrylate copolymers, and the properties during that they manifest during recording of holograms of a plane wavefront have been studied. It has been found that the hologram recording rate at room temperature is the same for the perpendicular and parallel polarization of recording rays and the hologram relaxation rate is higher in the case of perpendicular polarization orientation of recording rays. It has been shown that the diffraction efficiency of holograms does not exhibit a monotonic relation with the film softening temperature.

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36

Oliveira-Silva, Rui, Rute A. Pereira, Fábio M. Silva, Vítor M. Gaspar, Alfonso Ibarra, Ángel Millán, Filipa L. Sousa, João F. Mano, and Nuno J. O. Silva. "Temperature-responsive nanomagnetic logic gates for cellular hyperthermia." Materials Horizons 6, no. 3 (2019): 524–30. http://dx.doi.org/10.1039/c8mh01510d.

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37

Kobayashi, T., Y. Isowaki, and Y. Fujiwara. "Advantages of Increasing Writing Temperature in Heat-Assisted Magnetic Recording." Journal of the Magnetics Society of Japan 40, no. 2 (2016): 28–34. http://dx.doi.org/10.3379/msjmag.1602r003.

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38

Dzhamankyzov, N. K., Y. K. Ismanov, K. M. Zhumaliev, and S. A. Alymkulov. "Analysis of Temperature Modes of Hologram Recording on Photothermoplastic Materials." KnE Energy 3, no. 3 (April 25, 2018): 458. http://dx.doi.org/10.18502/ken.v3i3.2060.

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39

Hovorka, O., S. Devos, Q. Coopman, W. J. Fan, C. J. Aas, R. F. L. Evans, Xi Chen, G. Ju, and R. W. Chantrell. "The Curie temperature distribution of FePt granular magnetic recording media." Applied Physics Letters 101, no. 5 (July 30, 2012): 052406. http://dx.doi.org/10.1063/1.4740075.

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A. Draude, A. Draude, R. Meinhardt R. Meinhardt, H. Franke H. Franke, Y. Zhao Y. Zhao, and R. A. Lessard R. A. Lessard. "In-situ measurement of the surface temperature during holographic recording." Chinese Optics Letters 6, no. 1 (2008): 25–28. http://dx.doi.org/10.3788/col20080601.0025.

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Wang, Sumei, and R. H. Victora. "Temperature distribution of granular media for heat assisted magnetic recording." Journal of Applied Physics 117, no. 17 (May 7, 2015): 17D147. http://dx.doi.org/10.1063/1.4918697.

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Hohlfeld, J., X. Zheng, and M. Benakli. "Measuring temperature and field profiles in heat assisted magnetic recording." Journal of Applied Physics 118, no. 6 (August 14, 2015): 064501. http://dx.doi.org/10.1063/1.4928310.

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43

Yuan, Zhi-min, Bo Liu, Jiwen Wang, and Jun Ding. "Flash temperature induced magnetic degradation in high density magnetic recording." Journal of Applied Physics 87, no. 9 (May 2000): 6158–60. http://dx.doi.org/10.1063/1.372641.

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44

Oakley, C. B., M. M. Cody, and V. S. O’Leary. "HACCP Readiness in Child Nutrition Programs: Temperature Measurement and Recording." Journal of the American Dietetic Association 106, no. 8 (August 2006): A55. http://dx.doi.org/10.1016/j.jada.2006.05.171.

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Cusack, Maggie, Alberto Pérez Huerta, and EIMF. "Brachiopods recording seawater temperature—A matter of class or maturation?" Chemical Geology 334 (December 2012): 139–43. http://dx.doi.org/10.1016/j.chemgeo.2012.10.021.

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Bottoni, G., D. Candolfo, and A. Cecchetti. "Temperature effects on time-dependent magnetic phenomena in recording media." Journal of Magnetism and Magnetic Materials 155, no. 1-3 (March 1996): 52–54. http://dx.doi.org/10.1016/0304-8853(95)00666-4.

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47

Graham, B. A., A. M. Brichta, and R. J. Callister. "Recording Temperature Affects the Excitability of Mouse Superficial Dorsal Horn Neurons, In Vitro." Journal of Neurophysiology 99, no. 5 (May 2008): 2048–59. http://dx.doi.org/10.1152/jn.01176.2007.

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Superficial dorsal horn (SDH) neurons in laminae I–II of the spinal cord play an important role in processing noxious stimuli. These neurons represent a heterogeneous population and are divided into various categories according to their action potential (AP) discharge during depolarizing current injection. We recently developed an in vivo mouse preparation to examine functional aspects of nociceptive processing and AP discharge in SDH neurons and to extend investigation of pain mechanisms to the genetic level of analysis. Not surprisingly, some in vivo data obtained at body temperature (37°C) differed from those generated at room temperature (22°C) in spinal cord slices. In the current study we examine how temperature influences SDH neuron properties by making recordings at 22 and 32°C in transverse spinal cord slices prepared from L3–L5 segments of adult mice (C57Bl/6). Patch-clamp recordings (KCH3SO4 internal) were made from visualized SDH neurons. At elevated temperature all SDH neurons had reduced input resistance and smaller, briefer APs. Resting membrane potential and AP afterhyperpolarization amplitude were temperature sensitive only in subsets of the SDH population. Notably, elevated temperature increased the prevalence of neurons that did not discharge APs during current injection. These reluctant firing neurons expressed a rapid A-type potassium current, which is enhanced at higher temperatures and thus restrains AP discharge. When compared with previously published whole cell recordings obtained in vivo (37°C) our results suggest that, on balance, in vitro data collected at elevated temperature more closely resemble data collected under in vivo conditions.

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Kindle, Tashika K., Kristen M. Johnson, Tracie M. Ivy, Carie B. Weddle, and Scott K. Sakaluk. "Female mating frequency increases with temperature in two cricket species, Gryllodes sigillatus and Acheta domesticus (Orthoptera: Gryllidae)." Canadian Journal of Zoology 84, no. 9 (September 2006): 1345–50. http://dx.doi.org/10.1139/z06-127.

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Although the effect of temperature on calling song of male crickets has been widely studied, its influence on female mating behaviour remains largely unexplored. We examined the effect of varying temperature on female mating frequency in two cricket species ( Gryllodes sigillatus (F. Walker, 1869) (= Gryllodes supplicans (F. Walker, 1859)) and Acheta domesticus L., 1758) by providing females with multiple mating partners and recording the number of matings over 72 h intervals using time-lapse video recording. Female mating frequency increased with temperature in both species, but increased more steeply in A. domesticus than in G. sigillatus. Temperature accounted for approximately 50% of the variation in female mating frequency. These results suggest that the threshold for mating in females is temperature dependent, such that at lower temperatures only certain males are able to elicit the female mounting response required for successful mating. If temperature affects female selectivity, then male mating success in different seasons may vary, with a wider range of males gaining the opportunity to copulate at warmer times of the year. Consequently, the intensity of sexual selection may vary seasonally.

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Ganyushina, N. D., and A. V. Korosov. "Variability of thermoregulation parameters of the common viper." Proceedings of the Zoological Institute RAS 325, no. 1 (March 25, 2021): 99–112. http://dx.doi.org/10.31610/trudyzin/2021.325.1.99.

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The results of processing the data of continuous recording of body temperature using loggers obtained with the enclosure keeping 23 individuals of the common viper Vipera berus L. in Karelia (62.068310°N, 33.958824°E) are presented. Nine temperature characteristics, subdivided into 2 groups, were quantitatively evaluated – thermoecological, describing the dependence of the course of the viper’s body temperatures on the heat flux of the medium, and thermophysiological, stable parameters of thermoregulation. The factors that determine the variability of temperature characteristics are considered: time of day, weather conditions, morphometric indicators of an individual. A wide individual variability of thermoecological indicators and low variability of thermophysiological indicators were revealed, which was not associated with significant differences in different individuals. The parameter “maximum voluntary temperature”, which characterizes body temperature while avoiding overheating, is the closest to the physiological parameter of thermoregulation; obtaining such data is a very laborious process associated with deciphering the snake’s behavior from video recordings. An indicator that gives close values to the maximum voluntary temperature, which has a very simple calculation algorithm – “median active temperature (for a sample of temperatures above 30°C)”; however, it requires a volumetric series of continuously recorded temperature records for analysis. An accurate, statistically robust “maximum typical temperature” parameter gives an idea of the true maximum temperature characteristic of a species, but has a complex calculation method. These thermophysiological parameters are recommended to be used for intrapopulation and interspecies comparisons.

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Bair, S., I. Green, and B. Bhushan. "Measurements of Asperity Temperatures of a Read/Write Head Slider Bearing in Hard Magnetic Recording Disks." Journal of Tribology 113, no. 3 (July 1, 1991): 547–54. http://dx.doi.org/10.1115/1.2920658.

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An infrared temperature measurement system was used to measure hot spots in a magnetic head rigid disk interface. The system employed the spectral distribution as well as intensity of sampled radiation to determine both the temperature and effective area of microscopic sources at elevated temperature. Flash temperatures between particulate and thin-film rigid disks and a simulated transparent sapphire slider at various operating conditions were measured.

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Journal articles on the topic 'Temperature recording'

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