ライフサイエンスコーパス: electromagnetic field

1 y of Raman labels to experience strong local electromagnetic field.

2 model of communication with a fully quantum electromagnetic field.

3 gains can be made by manipulating the local electromagnetic field.

4 on the nanometre scale, producing an intense electromagnetic field.

5 orders of magnitude larger than the incident electromagnetic field.

6 dielectric environment for manipulating the electromagnetic field.

7 ed by application of an external alternating electromagnetic field.

8 uantum mechanical vacuum fluctuations of the electromagnetic field.

9 signal due to the effective coupling of the electromagnetic field.

10 nted level of confinement and enhancement of electromagnetic field.

11 coupling between the magnetic dipole and the electromagnetic field.

12 nto states that are hybridized to the vacuum electromagnetic field.

13 tral response and the significantly enhanced electromagnetic field.

14 um mechanics and the gauge invariance of the electromagnetic field.

15 ared, the atrial lead is more susceptible to electromagnetic fields.

16 mood using a previously unexplored range of electromagnetic fields.

17 perature, pressure, surface realignment, nor electromagnetic fields.

18 biperylene derivative by precisely sculpted electromagnetic fields.

19 structures that couple strongly to external electromagnetic fields.

20 ice performs a coordinate transformation for electromagnetic fields.

21 s design and to the cloaking of objects from electromagnetic fields.

22 ed volume of space to exclude completely all electromagnetic fields.

23 sures to residential extremely low frequency electromagnetic fields.

24 ly inaccessible due to the large TMS-induced electromagnetic fields.

25 al mechanism through real-time processing of electromagnetic fields.

26 excitations of free charges (plasmons) with electromagnetic fields.

27 ting the phase, amplitude or polarization of electromagnetic fields.

28 s, can be sensitively controlled by external electromagnetic fields.

29 ombination with a low frequency (150 kHz) AC electromagnetic field (AC EMF) to effectively remove tri

30 ires and at surface defects where heightened electromagnetic fields affect the fluorescence.

31 ation of the strong local enhancement of the electromagnetic field allows enhancing the optical emiss

32 significantly correlated with the estimated electromagnetic field amplitudes both for absolute metab

33 monic nanostructures to confine the incident electromagnetic field and increase it by many orders of

34 of coherent quantum interactions between the electromagnetic field and matter inside a resonator, has

35 nd circadian disruption was evaluated in the Electromagnetic Fields and Breast Cancer on Long Island

36 The ideal study of occupational exposure to electromagnetic fields and cancer risk would have a clea

37 mechanism for the transfer of energy between electromagnetic fields and charged particles.

38 l systems, reducing nanotoxicity, modulating electromagnetic fields and contacting nanostructures.

39 esearchers to modify the interaction between electromagnetic fields and dielectric media from radio t

40 tic interferences between various sources of electromagnetic fields and ICDs in daily life and occupa

41 This permits the visualization of the electromagnetic fields and polarization surface charge d

42 due to their ability to confine and enhance electromagnetic fields and strong, inherent nonlinearity

43 nding the fundamental properties of confined electromagnetic fields and the development of advanced p

44 s, including concerns related to nonionizing electromagnetic fields and wireless mobile telephones.

45 n effective decoupling of the qubit from the electromagnetic field, and that this effect is observabl

46 reasons: high temperature, high surrounding electromagnetic field, and the highly corrosive molten s

47 regulated by using external fields, such as electromagnetic fields, and a theoretical approach has b

48 c devices at extreme temperatures, intensive electromagnetic fields, and radiation found in space exp

49 ed functional imaging; detection of neuronal electromagnetic fields; and molecular imaging of neural

50 s for the case of an infinite cylinder in an electromagnetic field are well known, and have been used

51 the amplitude, phase and polarization of the electromagnetic fields are accrued gradually along an op

52 The risks of extremely-low frequency (ELF) electromagnetic fields are particularly poorly understoo

53 study explored parental exposure to heat and electromagnetic fields as potential risk factors.

54 For strong electromagnetic fields, as the supercurrents approach th

55 s in or on the body, which may be subject to electromagnetic fields associated with the MR system.

56 on in the metal nanoparticle oriented by the electromagnetic field at the laser focus.

57 Tailoring the electromagnetic field at the nanoscale has led to artifi

58 changes from 1 to 0, which leads to enhanced electromagnetic fields at material interfaces and a rect

59 We find strong focusing of the electromagnetic fields at the contact edges over the sam

60 plasmon polariton), creating large localized electromagnetic fields at their interface, where 4-MBA m

61 Unlike for the electromagnetic field, Bohr's argument does not imply th

62 ible without the complications of driving an electromagnetic field but rather by using spin-polarized

63 Some of these systems will be coupled to the electromagnetic field by the charge distributions they c

64 etween the magnetic dipole of a spin and the electromagnetic field can be enhanced up to the point at

65 ltimate limit of a single nanostructure, the electromagnetic field can be strongly concentrated in a

66 sign that metamaterials provide, we show how electromagnetic fields can be redirected at will and pro

67 Dynamic control with pulsed electromagnetic fields can overcome energetic barriers,

68 estation of the fact that, even in a vacuum, electromagnetic fields cannot all vanish.

69 ldhood leukaemia and extremely low-frequency electromagnetic fields cannot be dismissed entirely.

70 we demonstrate that the naturally occurring electromagnetic field chirality that arises in nanobeam

71 n improved capability to efficiently use the electromagnetic field compared to other structures.

72 first application, we investigated the bound electromagnetic field component of surface phonon polari

73 bling tailoring of the damping processes and electromagnetic field couplings of the Fano resonances,

74 Atoms interact with each other through the electromagnetic field, creating collective states that c

75 Extremely low-frequency daily-life electromagnetic fields do not disturb sensing capabiliti

76 exposure to extremely low-frequency (50 Hz) electromagnetic fields (ELF MFs) on a recognition memory

77 ed the mean level of extremely low-frequency electromagnetic fields (ELF-EMFs) to which populations a

78 of clinical and experimental data regarding electromagnetic field (EMF) bioeffects and their therape

79 idely used metric for studies of residential electromagnetic field (EMF) exposure and health effects.

80 ferentiation, and therefore the potential of electromagnetic field (EMF) exposure to induce cancer.

81 d with the human btk gene to a 1-gauss 60-Hz electromagnetic field (EMF) has been reported to rapidly

82 osure of DT40 lymphoma B cells to low energy electromagnetic field (EMF) results in a tyrosine kinase

83 Electromagnetic fields (EMF) are physical energy fields

84 osure of DT40 lymphoma B-cells to low energy electromagnetic fields (EMF) results in activation of ph

85 the possible association between exposure to electromagnetic fields (EMFs) and breast cancer.

86 Electromagnetic fields (EMFs) are present throughout the

87 Exposure to electromagnetic fields (EMFs) from use of electric blank

88 The reports dealing with the effects of electromagnetic fields (EMFs) on brain electrical activi

89 association between occupational exposure to electromagnetic fields (EMFs) or polychlorinated bipheny

90 Drosophila melanogaster also respond to electromagnetic fields (EMFs), although the reported eff

91 f polarization in the biological activity of Electromagnetic Fields (EMFs)/Electromagnetic Radiation

92 lar (LV) endocardial mapping procedure using electromagnetic field energy for positioning of the cath

93 able to the decay length of the LSPR-induced electromagnetic field enhancement ( approximately 5-20 n

94 e-enhanced Raman scattering (SERS) relies on electromagnetic field enhancement at optical frequencies

95 concentrated within the 0-4 nm thick zone of electromagnetic field enhancement.

96 f the nanoparticles while also mapping local electromagnetic field enhancements and reactivity patter

97 ing resonant molecular excitation with large electromagnetic field enhancements experienced by a mole

98 ong interparticle interactions lead to large electromagnetic field enhancements that can be exploited

99 l intensity by 9 orders of magnitude through electromagnetic field enhancements.

100 spots using single molecules to probe local electromagnetic field enhancements.

101 microscopy (TIRM) an exponentially decaying electromagnetic field established on the surface of a gl

102 a number of previous studies of occupational electromagnetic field exposure and cancer, additional st

103 dd modest support for an association between electromagnetic field exposure and leukemia.

104 y low frequency and radiofrequency/microwave electromagnetic field exposure and no association betwee

105 tric blankets, one of the largest sources of electromagnetic field exposure in the home, is associate

106 Animal studies have shown that electromagnetic field exposure may interfere with the ac

107 investigate the relation between a range of electromagnetic field exposures and brain tumor risk in

108 the conservative energy exchange between the electromagnetic field fluctuations and the charged parti

109 om the polymer by external application of an electromagnetic field for 2h/day for a week.

110 esults indicate that extremely low frequency electromagnetic fields from commonly used household appl

111 real space to take the quantum nature of the electromagnetic field fully into account.

112 d dramatically increase the intensity of the electromagnetic field, functioning as high performance p

113 ay occur when the pacemaker is exposed to an electromagnetic field generated by the cellular telephon

114 The highly enhanced electromagnetic field generated by the plasmon coupling

115 Electromagnetic fields generated by neuronal activity in

116 itable tissues is essential for relating the electromagnetic fields generated by the tissue to the un

117 Here, we show that superchiral electromagnetic fields, generated by the optical excitat

118 nsor coils were spatially tracked through an electromagnetic field generator.

119 e result of diffusion, orientation, or local electromagnetic field gradients but rather are the resul

120 Men who were exposed to nonionizing electromagnetic fields had a small excess risk for devel

121 iquitous dipole interaction with a classical electromagnetic field has to be modified in real space t

122 ive response of positive-energy electrons to electromagnetic fields has been explored through ionizat

123 limited coupling of these resonances to the electromagnetic field have not generally been considered

124 perature environments and exhaust fumes, but electromagnetic fields have not been implicated.

125 The ability to control electromagnetic fields, heat currents, electric currents

126 tiple-branched petals with an enhanced local electromagnetic field, (ii) long narrow gaps between adj

127 caused by the interaction of matter and the electromagnetic field in subwavelength resonant structur

128 f the closely attached AuNPs, and the strong electromagnetic field in the cavity of the AuNP shell or

129 ecade has seen subwavelength focusing of the electromagnetic field in the proximity of nanoplasmonic

130 ic oscillators in the quantum regime include electromagnetic fields in a cavity and the mechanical mo

131 Plasmon-enhanced electromagnetic fields in an array of gold nanodots prov

132 is ultrafast charge transport and control by electromagnetic fields in semiconductors.

133 Surface plasmon polaritons can confine electromagnetic fields in subwavelength spaces and are o

134 These structures allow for concentration of electromagnetic fields in the desired locations between

135 esonance from metal nanoparticles to enhance electromagnetic fields in the region of analytes.

136 Here, we realize a two-mode cat state of electromagnetic fields in two microwave cavities bridged

137 on path for applications where tailoring the electromagnetic field induced by Fano resonance can impr

138 the limit set by quantum fluctuations of the electromagnetic field instead of thermal or technical no

139 eatly enhanced sensitivity (due to increased electromagnetic field intensities at the dielectric surf

140 as a resonator that accumulates an intensive electromagnetic field into a spiral capacitive gap (arou

141 s tiny antennae for efficiently focusing the electromagnetic field into nanoscale volumes.

142 d engineering by providing schemes to tailor electromagnetic fields into desired spatial patterns.

143 The electromagnetic field is assigned a self-consistent role

144 ature are separated by nanoscale gaps and an electromagnetic field is localized within the gaps.

145 ion (MSM), since the flux of an AC-generated electromagnetic field is used to induce physical movemen

146 The disruptive effect of radiofrequency electromagnetic fields is not confined to a narrow frequ

147 of a single spatial and temporal mode of the electromagnetic field, linear amplifiers can be classifi

148 Mechanisms by which weak electromagnetic fields may affect biological systems are

149 Electromagnetic fields may be chiral, too, with circular

150 ility that weak, low-frequency anthropogenic electromagnetic fields may have biological consequences.

151 Some investigators have posited that electromagnetic fields may influence cancer risk through

152 g electric currents are set up that generate electromagnetic field moments; these can lead to dramati

153 ementary quantum mechanics requires that the electromagnetic field must be quantized.

154 Nanoscale localization of electromagnetic fields near metallic nanostructures unde

155 With TIRM, an exponentially decaying electromagnetic field (near-field) established on the su

156 only the rapidly oscillating (1 kHz, <1 V/m) electromagnetic field of the experimental procedure, cal

157 Probing the electromagnetic field of the hotspots would offer much i

158 interaction of the object with the fringing electromagnetic field of the QCM.

159 ed from solution to occupy sites of enhanced electromagnetic field on the substrate by means of chemi

160 s that measure the amplitude and phase of an electromagnetic field on very large areas.

161 lly tune the interaction and localization of electromagnetic fields on semiconductor surfaces in a wa

162 is due to the increase in the confinement of electromagnetic fields on the location of the SLG that r

163 ions of electrons (plasmons), providing huge electromagnetic fields on the nanometer scale.

164 e spatial distribution of resonantly coupled electromagnetic fields on the photonic crystal surface a

165 positioned near regions of strongly enhanced electromagnetic fields on the surface of nano-featured p

166 chnique to produce and then image evanescent electromagnetic fields on the surfaces of nanostructures

167 owever, no significant effects of low-energy electromagnetic fields on tyrosine kinase activities or

168 ing is due to the qubit interacting with the electromagnetic field only through its toroidal moment,

169 serious damage to instruments due to strong electromagnetic fields or arcing.

170 terrestrial or cosmic ionising radiation, to electromagnetic fields, or to nuclear energy?

171 Pulsed electromagnetic fields (PEMF) have been shown to be clin

172 h 15 nm resolution as a function of time and electromagnetic field polarization for different plasmon

173 y low frequency and radiofrequency/microwave electromagnetic field potential exposures were estimated

174 However, strong 50-Hz electromagnetic fields, present in certain occupational

175 d by measuring the polarisation state of the electromagnetic fields produced by a microstrip waveguid

176 The forward and backward propagating electromagnetic fields produced by the waveguide, in a s

177 Electromagnetic fields produced by thermal fluctuation c

178 s, based both on the exact solutions for the electromagnetic field propagating in the helical plasmon

179 frames per second) video images and wideband electromagnetic field records of the attachment process

180 led and perceived exposure to radiofrequency electromagnetic fields (RF-EMF) from mobile-phone base s

181 ociation between exposure to radio-frequency electromagnetic fields (RF-EMFs) from broadcast transmit

182 -dimensional (3D) optical lens structure for electromagnetic field shaping based on spatial light tra

183 model consists of an accurate body model for electromagnetic field simulations, an atlas of periphera

184 ity and exposure to shift work, metal fumes, electromagnetic fields, solvents, lead, paint, pesticide

185 imodal nature of the interaction between the electromagnetic fields, such as phase noises and spontan

186 of the local degree of chiral dissymmetry in electromagnetic fields suggested the existence of optica

187 d to vibrate with the flux of an external ac electromagnetic field, supplied by a wire coil solenoid

188 that are enhanced by the highly concentrated electromagnetic fields supported by the resonant whisper

189 order of molecules that can be controlled by electromagnetic fields, surface modifications and pressu

190 from the characteristic decay length of the electromagnetic fields surrounding Ag nanoparticles bein

191 bstrates is attributed to the enhanced local electromagnetic field that originates from coupling betw

192 ydrogen-like bismuth (209)Bi(82+) experience electromagnetic fields that are a million times stronger

193 ions, known as plasmons, can have evanescent electromagnetic fields that are orders of magnitude larg

194 s are scattered and accelerated by turbulent electromagnetic fields that isotropize the ions in the c

195 and has resulted in a degree of control over electromagnetic fields that was previously impossible.

196 We demonstrated that by using nanostructured electromagnetic fields, the selection rules of absorptio

197 providing theoretical evidence that applying electromagnetic field therapy early on in the treatment

198 rapeutic ultrasound, acupuncture, and pulsed electromagnetic field therapy will be highlighted in thi

199 Owing to their highly localized electromagnetic fields, they may be used for the transpo

200 Possibly confined through its self-induced electromagnetic field, this plasmoid is shown to emit st

201 nteractions between electronic states, local electromagnetic fields (tip-induced plasmons), and molec

202 Plasmonic structures couple oscillating electromagnetic fields to conduction electrons in noble

203 remarkable ability to manipulate and control electromagnetic fields to produce effects such as perfec

204 ield-effect transistors (including realistic electromagnetic fields) to show that wavelength tunabili

205 Zero-point electromagnetic fields were first introduced to explain

206 onal and rotational motions of molecules, an electromagnetic field with an appropriate frequency and

207 influenced the coupling of the LSPR-enhanced electromagnetic field with FM materials.

208 be possible to achieve imaging of evanescent electromagnetic fields with electron pulses when such fi

209 Through measurement of charged particles and electromagnetic fields with NASA's Magnetospheric Multis

210 eous distributions of DC and radio-frequency electromagnetic fields with optical fields that require

211 The strong interaction of electromagnetic fields with plasmonic nanomaterials offe

212 ynamically in response to the local incident electromagnetic field would provide a remarkable route t

213 currents from measurements of the associated electromagnetic fields would significantly benefit from