ライフサイエンスコーパス: microwave

1 ite bodies indicating non-thermal effects of microwaves.

2 phenomena such as acoustics, water waves and microwaves.

3 using light and coherently manipulated with microwaves.

4 owing us to study the electrons' response to microwaves.

5 arly high amounts in the must pre-treated by microwaves (4344.0 mg/100 mL), and the lowest in the mus

6 as to investigate the efficacy and safety of microwave ablation (MWA) in small hepatocellular carcino

7 We present the outcomes of microwave ablation (MWA) of renal cell carcinoma (RCC) w

8 recorded unipolar and bipolar electrograms; microwave ablation caused reductions in voltage and chan

9 Microwave ablation in patients with hepatocellular carci

10 educes the need for antenna repositioning in microwave ablation to accurately target liver tumors and

11 Microwave ablation was applied to 42 hepatocellular carc

12 Use of thermal accelerant results in larger microwave ablation zone volumes in normal porcine lung t

13 emelimumab dose, patients underwent subtotal microwave ablation.

14 matrix to develop a lightweight material for microwave absorption and shielding.

15 suspension, open vessel acid digestion, and microwave acid digestion were examined.

16 ry, uses a mortar and pestle or a ball mill; microwave activation can drastically reduce reaction tim

17 ed and, to our knowledge, the first flexible microwave amplifier that can output 10 mW power beyond 5

18 Microwave and conventional heating methods were used to

19 ried by three methods (hot air, intermittent microwave and infrared) were studied.

20 The effects of microwave and ohmic heating pre-treatment and subsequent

21 el approach to achieve two-mode squeezing of microwave and optical fields using graphene based struct

22 ltralow optical loss and highly co-localized microwave and optical fields(15), while enabling dispers

23 hybrid squeezed modes (that incorporate both microwave and optical fields) have not yet been proposed

24 erfaces that map quantum information between microwave and optical fields.

25 th classical and quantum information between microwave and optical frequency is an important engineer

26 Further integration with high quality factor microwave and optical resonators will enable efficient t

27 suggested that nonionizing radiation in the microwave and terahertz (THz; far-infrared) regimes coul

28 e highest levels ofprovitamin Awere observed.Microwaved and bolied 'Grafitti' for longer times showed

29 obtained, it was advisable to treat BS with microwaves and soak them before extracting the oil in a

30 ted P. pellucida leaves were best dried with microwaving and freeze drying, respectively for optimal

31 of cooking processes (boiling, steaming and microwaving) and different preparation times, on the con

32 Blanching methods (boiling, microwave, and steaming) using 5-20% lemon juice was com

33 In this paper, a microwave apparatus for breast lesion detection is used

34 3) and extractions were accomplished using a microwave apparatus.

35 ce the common heavyweight materials used for microwave applications.

36 owever, two critical issues arise when using microwaves as a heat source: intensive labor and excessi

37 We have used microwave assisted acid digestion and transversely heate

38 s article, an easy and quick method based on microwave assisted acid digestion technique prior to qua

39 In this study, microwave assisted binary phase solvent extraction metho

40 rice bran and the resulting white rice using microwave assisted decomposition followed by inductively

41 ptical Emission Spectroscopy (ICP-OES) after microwave assisted digestion of samples.

42 is study considered the effect of low energy microwave assisted freezing (MAF) on freezing time and q

43 solvent extraction using Soxhlet apparatus, microwave-assisted and ultrasound-assisted process and s

44 tion optimization identified a Pd-catalyzed, microwave-assisted C-H heteroarylation protocol for the

45 primary alcohol in alkaline solutions under microwave-assisted conditions.

46 Microwave-assisted digestion (MW-AD) under high and medi

47 A microwave-assisted digestion method using diluted HNO(3)

48 A microwave-assisted digestion procedure using diluted HNO

49 ction, ultrasonic-assisted extraction (UAE), microwave-assisted extraction (MAE) and supercritical fl

50 various properties of pectin extracted using microwave-assisted extraction (MAE) from eggplant peel a

51 vs anthocyanins from maize and cowpea under microwave-assisted extraction (MAE).

52 The optimal microwave-assisted extraction conditions of pistachio gr

53 k was to synthesize beta-cyclodextrin NS, by microwave-assisted fusion, for the encapsulation of PIP.

54 As such, the microwave-assisted heating strategy may stand out as an

55 h barbituric acid with melamine via a facile microwave-assisted heating, thereby eliminating the issu

56 Conventional hydrodistillation and microwave-assisted hydrodistillation (MWHD) were applied

57 f cyclooct-4-enone derivatives via a tandem, microwave-assisted oxyanionic 6-exo-dig cyclization/Clai

58 tion/annealing, extrusion/succinylation, and microwave-assisted phosphorylation, etc.

59 simple, rapid, and environmentally friendly microwave-assisted protocol, we have synthesized a numbe

60 A simple and efficient microwave-assisted synthesis of asymmetric pentamethine

61 Furthermore, the microwave-assisted synthetic technique was also carried

62 tropomyosin was up to 75% when treated with microwave at 125 degrees C for 15 min.

63 more than 100 times better than the current microwave atomic clock standard.

64 Microwave atomic clocks have traditionally served as the

65 nsistent with values derived from the cosmic microwave background and from Big Bang nucleosynthesis(1

66 reement with a recent analysis of the cosmic microwave background(7).

67 a: see text]) model as applied to the cosmic microwave background.

68 tials is enabled by the RF (Radio Frequency) microwave backscattering effect where the biopotentials

69 -lightweight flat off-axis reflectarrays for microwave beam collimation and focusing, similar to a pa

70 We demonstrate by the use of two microwave beams with opposite OAM to separate rotational

71 of mango, apple, orange and banana peelings microwave-blanched at 720 W for 1, 3 and 5 min were dete

72 Generally, microwave blanching for 3 or 5 min was found to preserve

73 Browning rates decreased with microwave blanching time except in the case of apple pee

74 Generally, increased microwave blanching was accompanied by a significant inc

75 Besides faster heating, microwaves can also have non-thermal effects on inactiva

76 ntering, but drying at 90 degrees C or brief microwaving can improve the conductivity.

77 We hypothesized that open irrigated microwave catheter ablation can create deep myocardial l

78 Irrigated microwave catheter ablation may be an effective ablation

79 In-house designed and constructed irrigated microwave catheters were tested in in vitro phantom mode

80 as first observed for electrons(1-6) and for microwave cavities(7,8), and it is generally expected fo

81 that are implemented with a superconducting microwave cavity having the role of the oscillator.

82 We also use a specially designed resonance microwave cavity to measure the face-dependent EPR spect

83 us-variable (CV) logical qubit captured in a microwave cavity.

84 roscopic information necessary to extend the microwave characterization of isoprene ozonolysis to pre

85 ith applications ranging from reconfigurable microwave circuit elements to ultralow-power magnetic me

86 n to the ac conductivity are equivalent in a microwave circuit, the research on local structural dyna

87 on on silicon photonic platforms integrating microwave circuitry.

88 Low-cost flexible microwave circuits with compact size and light weight ar

89 by helping the advance of the performance of microwave cloaking systems, stealth windows, frequency s

90 only in proof-of-principle experiments with microwave clocks of limited stability.

91 an order of magnitude over state-of-the-art microwave clocks.

92 hermal noise errors in realistic optical and microwave communication channels and study their various

93 Microwave conductance and field-effect transistor measur

94 Mobilities extracted from time-resolved microwave conductivity measurements were consistent with

95 -1)s(-1) and 4.2 cm(2)V(-1)s(-1) measured by microwave conductivity, and the long-range apparent hole

96 d ohmic heating pre-treatment and subsequent microwave-convection drying were studied.

97 Intermittent microwave convective drying (IMCD) is an advanced drying

98 hypotheses by subjecting raw, marinated and microwave-cooked salmon to static in vitro digestion und

99 The impact of culinary practices - oven or microwave cooking combined with herbs and/or beer - on a

100 s(1-6) have surpassed the precision of their microwave counterparts by two orders of magnitude or mor

101 ct of coronary flow, as well as preferential microwave coupling to myocardium and blood as opposed to

102 wo broadband chirped-pulse Fourier-transform microwave (CP-FTMW) spectrometers.

103 entional techniques, is taken to pre-process microwave data and create suitable data for the machine

104 Sensitive microwave detectors are essential in radioastronomy(1),

105 This field has given rise to single-photon microwave detectors(7-9) and a quantum computer that is

106 Nonreciprocal microwave devices play critical roles in high-fidelity,

107 , light can instead be used as a stimulus to microwave devices that directly control microwave signal

108 torage, ultrafast spintronics, and effective microwave devices.

109 We show that Microwave Dielectric Spectroscopy (MDS) can be used to d

110 The results demonstrate that microwave dielectric spectroscopy can be used to reliabl

111 ecked with corresponding results obtained by microwave digestion method.

112 able for organic samples after acid-assisted microwave digestion.

113 and Co(II) in canned foodstuffs prepared by microwave digestion.

114 dition calibration method and validated with microwave-digestion method.

115 Recently, hybrid systems operating in the microwave domain have witnessed impressive progress(13,1

116 nce-protected subspace, obtained by applying microwave dressing to a clock transition of the ground-s

117 Oils from the unpeeled microwave dried pulp (from unripe or ripe avocados) show

118 ds of plasma apparatus: RF plasma in vacuum, microwave-driven atmospheric-pressure plasma, DBD atmosp

119 Among the drying methods, intermittent microwave drying was more effective in creating new arom

120 products and showed that the application of microwaves during freezing process caused less freeze da

121 However, the prevalent studies on flexible microwave electronics have only focused on individual fl

122 tions ranging from non-volatile memories and microwave electronics.

123 ics have only focused on individual flexible microwave elements such as transistors, inductors, capac

124 the particle acceleration that produces the microwave emission.

125 The effect of a new microwave energy treatment on brewers' spent grain (BSG)

126 tance between the interface and junction and microwave excitation power have been found to influence

127 nd show that the angular momentum carried by microwave-excited coherent spin waves in a V(TCNE)(x) fi

128 weight and degree of esterification for the microwave-extracted pectin than that from conventional e

129 Prepared microwave extracts were applied in the formulation of th

130 hybrid two-mode squeezing, that includes one microwave field and one optical field, can be achieved.

131 tive label for in vitro diagnostics, using a microwave field to modulate emission intensity(5) and fr

132 re parametrically driven by a high amplitude microwave field.

133 profile can then couple to the out-of-plane microwave fields and induce power dissipation, which is

134 e squeezed electromagnetic states, including microwave fields and optical fields.

135 n interaction occurs between the optical and microwave fields through electrical modulation of the gr

136 fluctuations and suppressed conductivity at microwave frequencies.

137 ur findings of mechanical BICs combining the microwave frequency and macroscopic size unveil a unique

138 Furthermore, the microwave frequency can be tuned over a vast range by mo

139 ctional conversion of quantum states between microwave frequency superconducting quantum circuits and

140 ultaneous presence of optical excitation and microwave frequency sweeps at low magnetic fields.

141 g the optical frequency spacing equal to the microwave frequency, an interaction occurs between the o

142 N) on voltage V when irradiating contacts at microwaves frequency f (J) The validation of FQHE PASN m

143 Here, microwave-frequency acousto-optic modulation is realized

144 Here we demonstrate the conversion of a microwave-frequency excitation of a transmon-a type of s

145 Our results imply that microwave-frequency photons may be used to generate long

146 ent measurements of the phonon lifetime of a microwave-frequency, nanoscale silicon acoustic cavity i

147 associated to the disrupting effect that the microwaves had on BSG fiber, which significantly reduced

148 Interestingly, irradiation with traveling microwaves hardly produced heat, but increased the organ

149 The samples pretreated by microwave have registered higher polyphenols content and

150 The effect of microwave heating (MH, 65 and 75 degrees C for 15, 30, a

151 MNPs) were generated through chelation under microwave heating (power, 900 W) for 60 s in this study.

152 transfer model with Maxwell's equations for microwave heating and the chemical reaction kinetics mod

153 ing processes, which was more effective with microwave heating for temperatures over 70 degrees C.

154 Microwave heating has been considered a promising techno

155 Emerging technologies, such as focused microwave heating of liquid foods, have been studied to

156 The microwave heating of wheat kernels, flour, and gluten, h

157 Vacuum-microwave heating resulted in the increase of lipid yiel

158 nables droplet generation on-demand by using microwave heating to induce Laplace pressure change at t

159 was conducted to investigate the impacts of microwave heating treatments at different powers (0, 180

160 tudy was to compare conventional and focused microwave heating under similar conditions for the inact

161 ion in microfluidic systems using integrated microwave heating.

162 PO) were investigated under conventional and microwave heating.

163 of aromatic amines as nucleophiles requires microwave heating.

164 One such treatment is microwave heating; however, two critical issues arise wh

165 sent study aimed to verify the efficiency of microwave hydrodiffusion and gravity (MHG) by partially

166 Conventional microwave imagers usually require either time-consuming

167 opic studies of the transistor channel using microwave impedance microscopy reveal a homogeneous chan

168 pes of WS(2) monolayers by laser-illuminated microwave impedance microscopy.

169 ealizing quantum gates, both for optical and microwave implementations.

170 olecule could represent a critical tracer of microwave-inactive allene in cold molecular clouds, thus

171 The microwave-induced change in the narrow negative magnetor

172 Microwave-induced combustion (MIC) system for further Cl

173 n (MW-AD) under high and medium pressure and microwave-induced combustion (MIC) were evaluated.

174 m for sample digestion was proposed based on microwave-induced combustion in disposable vessels (MIC-

175 Microwave-induced combustion was evaluated for sample pr

176 on spectrometry; both were carried out after microwave-induced combustion.

177 h improved diffusion from cell matrix due to microwave-induced sorghum cell wall disruption.

178 adation kinetics was studied during combined microwave-infrared (MW-IR) heating of paprika.

179 Here, we report a flexible microwave integrated circuit strategy integrating membra

180 ing substrate of rigid chip-based monolithic microwave integrated circuits has been the only approach

181 s has been the only approach toward flexible microwave integrated circuits.

182 ntially increased broadening with increasing microwave intensity.

183 ble variation of characteristic lengths with microwave intensity; the results suggest that characteri

184 ) is recuperated by using a highly sensitive microwave interferometer-based detection circuit.

185 es were however found to be very tolerant to microwave irradiation as the permittivity of the insect

186 presence of tetrabutylammonium iodide under microwave irradiation in the absence of a solvent.

187 nt amounts and low energy consumption, since microwave irradiation is used only for sample ignition.

188 at cryogenic temperatures using radicals and microwave irradiation.

189 alternative energy sources - ultrasound and microwave irradiation.

190 ently, these systems remain isolated because microwave links at room temperature are noisy and lossy.

191 Materials and Methods Thirty-two consecutive microwave lung ablations were performed in nine 12-week-

192 Microwave (MAE), high-hydrostatic pressure (HHP) and ult

193 orders, leading to technological advances in microwave magnetoelectric applications and next generati

194 t foods, soft drinks/fruit juices, and fried/microwaved meat.

195 Here we demonstrate resonant microwave-mediated coupling between two electron spins t

196 Microwave microfluidic detection of conformational chang

197 on a single fiber with a near-field scanning microwave microscope (NSMM) at 5-10 GHz by obtaining pro

198 We examine the characteristics of the microwave/mm-wave/terahertz radiation-induced magnetores

199 vity dielectric sensor, an efficient acousto-microwave modulator, and an arbitrarily-curved 'electric

200 s (~300 G) and requires standard optical and microwave (MW) components for NV spin preparation, manip

201 potatoes was performed by applying constant microwave (MW) power (167 W/kg) and pulsed MW power (500

202 In this study, flaxseeds roasted at microwave (MW) powers of 180, 360 and 540 W for 5 and 10

203 Furthermore, microwaves (MW) and ultrasounds (US) were used as pre-tr

204 is study we investigated whether exposure to microwaves (MW) emitted by mobile phones could induce va

205 We report microwave observations of a solar flare, showing spatial

206 dy evaluated the impact of oven roasting and microwaving of chicken breast muscles, with/without roas

207 Currently, the lethal effect of microwaves on insects is considered to be due to the tem

208 ting technology suggests specific effects of microwaves on the protein structure.

209 emperatures via the observation of efficient microwave-optical photon conversion.

210 arge scale, as well as novel explorations in microwave-optical photon entanglement and quantum sensin

211 o the most advance ones (such as ultrasound, microwave or supercritical fluid extraction); the availa

212 acid contents of the chia seed oil heated in microwave oven changed between 19.21% (900 W) and 21.17%

213 ng solution and allows the use of a domestic microwave oven for sample ignition.

214 tients, this study showed that cooking using microwave oven has the greatest efficiency for reduction

215 lied in the optimization of the digestion in microwave oven procedure, and the results evaluated from

216 cooked in a water bath, in a stove, and in a microwave oven) on the mineral composition of mustard le

217 nalyzer, after dissolution of the samples in microwave oven, and with a portable potentiostat after t

218 fferent from the samples cooked in stove and microwave oven.

219 oked rice incorporated with 2.5% CTE using a microwave oven.

220 ectromagnetic energy into heat when 2.45 GHz microwaves penetrated the body of the termite, C. formos

221 vity-magnon-polaritons by encoding the input microwave phase.

222 Microwave photonics uses light to carry and process micr

223 erations, quantum information processing and microwave photonics, and examine how these generic chips

224 or broad applications in data communication, microwave photonics, and quantum photonics.

225 ical clocks, optical frequency division, and microwave photonics.

226 omorphic computing, quantum information, and microwave photonics.

227 tum walks of one and two strongly correlated microwave photons in a one-dimensional array of 12 super

228 to interactions between individual spins and microwave photons(17-20).

229 hich studies light-matter interactions using microwave photons.

230 ng of spin singlet-triplet qubits and single microwave photons.

231 The diamond structure was synthesized in a Microwave Plasma Assisted Chemical Vapor Deposition Syst

232 eory predictions have been combined with the microwave-plasma chemical vapor deposition technique to

233 may be a consequence of PFAS migration from microwave popcorn bags.

234 g/ml) for biomass to solvent ratio, 250 Watt microwave power and 250 rpm stirring speed.

235 imentally examined as a function of incident microwave power at a fixed bath temperature.

236 pectin (extraction yield of 18.13%) were in microwave power of 700 W, irradiation time of 165 s, and

237 engths decrease by up to 50% upon increasing microwave power up to about 8 mW.

238 ity was also determined for the variant with microwave pre-treatment (must 3.31 mM and 3.05 mM Trolox

239 The microwave pre-treatment was more effective than conventi

240 The effectiveness of microwave pretreatment at 525 or 420 W and the ohmic hea

241 This study aimed to evaluate the effects of microwave processing (2.45 GHz, 1000 W, 75-125 degrees C

242 Moreover, a further microwave-promoted dehydrogenative N-C bond forming reac

243 The microwave properties of nano-scale structures are import

244 in state on R(*) in a magnetic field using a microwave pulse, photoexcitation of A results in the for

245 strate that electron decoupling with chirped microwave pulses enables improved observation of DNP-enh

246 ires selective addressing of each spin using microwave pulses.

247 y prepared in three jointed cavities and the microwave qudit states are individually controlled, oper

248 of non-soaked and soaked black seed (BS) by microwave radiation (1-3.5 min) in comparison with conve

249 0-y 1979-2018 satellite multichannel passive-microwave record, 10.7 x 10(6) km(2), in 2017.

250 ns typically have orbital frequencies in the microwave regime and can therefore be integrated with ci

251 c applications and soil moisture estimation, microwave remote sensing observations are also sensitive

252 phson junction(8-13) bolometer embedded in a microwave resonator with a resonance frequency of 7.9 gi

253 gle-mode squeezing(1,3) in a superconducting microwave resonator(4).

254 to four electrons in a dot integrated with a microwave resonator, allowing us to study the electrons'

255 ts are verified by measurements on perturbed microwave resonators.

256 nd Fermi level of graphene together with its microwave response (reflection, transmission and absorpt

257 ly shortening the reaction times, the use of microwaves resulted, in general, in yields equal to or h

258 ate, the fact that it can be integrated with microwave sensing that can be used as the feedback to tu

259 This paper presents a microwave sensor designed as a capacitive matrix for lab

260 e presents a novel design of portable planar microwave sensor for fast, accurate, and non-invasive mo

261 al generators, we demonstrate a 10-gigahertz microwave signal with phase that exactly tracks that of

262 The device directly mixes an external microwave signal with the internal spin precession oscil

263 Non-ionizing microwave signals are transmitted through the breast tis

264 ve photonics uses light to carry and process microwave signals over a photonic link.

265 e spatial profile and temporal relaxation of microwave signals, respectively.

266 s to microwave devices that directly control microwave signals.

267 and fundamental research rely on less stable microwave sources.

268 1.7 GHz and they were then used to calculate microwave spectra of the samples.

269 the ultrasensitive magnetic field modulated microwave spectroscopy (MFMMS) technique [J.

270 for reconfigurable and optically transparent microwave surfaces and absorbers have been designed and

271 nolithic Optically Reconfigurable Integrated Microwave Switches (MORIMSs) built on a CMOS compatible

272 absorption spectroscopy, we demonstrate that microwave-synthesised carbon-dots ((m)CD) possess unique

273 lesion detection employing state of the art microwave systems provide a safe, non-ionizing technique

274 s are investigated for use in reconfigurable microwave systems, but they suffer from large footprint,

275 ireless communication and other miniaturized microwave systems.

276 estricting their implementation in practical microwave systems.

277 ign of liquid food pasteurization by focused microwave technology.

278 d in the development of NZI technologies for microwave/terahertz applications.

279 Microwave thermal emission from the winter night side is

280 fferent pre-treatment maceration techniques (microwave, thermo-maceration, and enzymatic treatment) o

281 the electromagnetic spectrum, spanning from microwaves to infrared light, and is a particularly powe

282 Likewise, coherent microwave-to-optical conversion of single photons would

283 ns, compact opto-electronic oscillators, and microwave-to-optical converters.

284 While preliminary microwave-to-optical transducers have been realized, dev

285 te coupled to a nanophotonic waveguide and a microwave transmission line.

286 uten secondary structure was affected by the microwave treatment and related to the polymer's disaggr

287 confirmed that the modifications induced by microwave treatment greatly affected pasta making charac

288 Microwave treatment induced the formation of Maillard re

289 The influence of microwave treatment of hydrated durum wheat kernels of t

290 order to better understand the effect of the microwave treatment on gluten structure, conformation, f

291 tion of renewable resource along with facile microwave treatment paves the way to sustainable, high y

292 Therefore, high-intensity microwave treatment showed great potential in reducing t

293 his effect was successfully reduced when the microwave treatment was applied on BSG.

294 sed for the high yield synthesis of GQDs via microwave treatment.

295 t is possible to heat and kill termites with microwaves under resonance condition.

296 The proposed approach is scalable from microwave up to THz frequencies, due to the electro-mech

297 ly cut) and splits (horizontally cut) during microwave-vacuum drying (MVD) procedures.

298 he regional scale, estimated using satellite microwave vegetation optical depth (VOD) observations.

299 Cephalothorax was subjected to vacuum-microwave (VM) heating prior to UAE using a mixture of i

300 ayered structure that is driven by a quantum microwave voltage and subjected to two optical fields of