ライフサイエンスコーパス: magnetic

1 suitable candidates for the manipulation of magnetic and topological order in topological insulator

2 challenge regarding the co-alignment of the magnetic and ultrasound fields.

3 erial sensing owing to their unique optical, magnetic, and electrical properties.

4 of antiferromagnetic materials with biaxial magnetic anisotropy for electrical manipulation.

5 Moreover, the electrical switching of magnetic anisotropy is repeatable and non-volatile.

6 rameter D (2.9 cm(-1)), which quantifies the magnetic anisotropy of the Mn(III) centers.

7 extreme total ionizing dose on perpendicular magnetic anisotropy, which plays a crucial role on therm

8 show that dicarbollide ligands impose strong magnetic axiality on the central Dy(III) ion.

9 Magnetic bead-based immunoassays were utilized to measur

10 The RCPs are generated on magnetic beads (MB) and subsequently, connected via stre

11 Heterogeneous assays commonly utilize magnetic beads as a solid phase.

12 etofluidics (DM) to automate the movement of magnetic beads between small volumes of reagents commonl

13 We validated the TPW for silica columns and magnetic beads by demonstrating significant improvements

14 Magnetic beads coated with metabolic enzymes were used t

15 els, we improve the extraction efficiency of magnetic beads from aqueous nanoliter-sized droplets by

16 capture of long DNA fragments (15-20 kb) by magnetic beads, after enzymatic extension of oligonucleo

17 and oligonucleotides coupled to streptavidin magnetic beads.

18 rovide an extra dimension in terms of exotic magnetic behavior as a result of their finite but cycliz

19 he autoencoder can also categorize different magnetic behaviors and eliminate background noise and ar

20 A novel magnetic blade spray-tandem mass spectrometry (MBS-MS/MS

21 In the magnetic circular dichroism (MCD) measurements, we obser

22 Here, we combine optical absorption, magnetic circular dichroism and first-principles calcula

23 A magnetic coil of miniature size can mitigate some of the

24 nlinearities driven by both the electric and magnetic components of light at modest (non-relativistic

25 r the construction of molecular nanomagnets, magnetic coolers, spin transition materials, photomagnet

26 Two more examples-on magnetic coupling in inorganic diradicals, and the way t

27 Magnetic crystals formed by 2D layers interacting by wea

28 oethylene; x ~ 2] has shown an extremely low magnetic damping comparable to, for example, yttrium iro

29 Here we introduce, validate, and apply a magnetic device that generates a uniform magnetic field

30 The nuclear magnetic dipole and nuclear electric quadrupole hyperfin

31 el-type skyrmion lattice and the stripe-like magnetic domain structures as well.

32 c response of Weyl semimetals such as chiral magnetic effect has been observed and presented by the a

33 ns of ligand nano-sequences and frequencies, magnetic elements, and bioactive ligands to remotely reg

34 The decrease in stored magnetic energy is enough to power the solar flare, incl

35 III) -Mn(II) chain that exhibits anisotropic magnetic exchange.

36 e, parahydrogen bubbling within a microtesla magnetic field (i.e. under conditions of SABRE in shield

37 ould be moved through a constriction under a magnetic field and, at a second temperature, could grip

38 anomalous Josephson effect in the vectorial magnetic field are in agreement with our theoretical mod

39 n magnetars as a ferromagnetic liquid with a magnetic field B(S) = 10(12+/-1) T.

40 combined presence of spin-orbit coupling and magnetic field breaks these symmetries and can lead to a

41 fined to their lowest Landau level in a high magnetic field can form a variety of correlated states,

42 erimentally that the often neglected optical magnetic field can nevertheless play an important role i

43 Measurement of the in-plane magnetic field dependence of the chemical potential near

44 compounds and their aggregates display clear magnetic field dependences up to 25 T, with the aggregat

45 Pulsed magnetic field exposure of human breast cancer cells tha

46 nsitions that are first-order insensitive to magnetic field fluctuations, enabling optical linewidths

47 y a magnetic device that generates a uniform magnetic field gradient within a space that is sufficien

48 The Earth's magnetic field has operated for at least 3.4 billion yea

49 A two-dimensional electron gas in a magnetic field is a model system where optical transitio

50 A large out-of-plane magnetic field is expected to modify the exciton-phonon

51 zigzag chains (frustrated spin ladder) in a magnetic field is still lacking.

52 We image the dynamic response to a 500 MHz magnetic field of the complex three-dimensional magnetiz

53 d electron cyclotron oscillations inside the magnetic field of the objective lens.

54 cetate-1-(13)C, resulting from zero-crossing magnetic field ramps of various durations, amplitudes, a

55 T, with the aggregates showing more drastic magnetic field sensitivities depending on the intermolec

56 The application of a strong magnetic field significantly and beneficially alters she

57 nal magnetic resonance imaging (MRI) at high magnetic field strength (7-tesla).

58 cterize the tunneling magnetoresistance, the magnetic field switching, and the current-induced switch

59 An increase in the magnetic field to 21 T did not show a proportional incre

60 SPS in the devices is driven by the external magnetic field to perform different movements in a 3D fl

61 inct Landau quantization on application of a magnetic field, and the quantized Landau fan structure f

62 tic Lagrangian (E and B are the electric and magnetic field, respectively).

63 ividual layer magnetization in CrI(3) with a magnetic field, we show that the spin-dependent charge t

64 ectly linked to solar activity and the earth magnetic field.

65 oylglycine) (PNAG) showed a good response to magnetic field.

66 initial nuclear spin states with an external magnetic field.

67 acceleration with a kilotesla-level applied magnetic field.

68 s of quark nuggets have assumed no intrinsic magnetic field; however, Tatsumi found that quark nugget

69 he violation of time-reversal symmetry via a magnetic field; thus establishing CPA beyond its initial

70 e zero-field peak results from a quasistatic magnetic-field effect of the RF radiation for periods co

71 ource in the presence of spatially diverging magnetic-field lines.

72 Finite-magnetic-field measurements further reveal weak antiloca

73 irable orientations in a bimorph actuator by magnetic-field-assisted lithography, the bending of the

74 view, the response of inductive materials to magnetic fields and spin-polarized currents is essential

75 in the magnetization loop with out-of-plane magnetic fields become more prominent.

76 e need to address the nuclei via oscillating magnetic fields complicates their integration in multi-s

77 ic basis for possible applications of pulsed magnetic fields in novel anticancer strategies.

78 relied on transducing electric signals into magnetic fields via the electron-nuclear hyperfine inter

79 lls to sequential 50- and 385-Hz oscillating magnetic fields was sufficient to induce intracellular p

80 we use inelastic neutron scattering to study magnetic fluctuations in the canonical weak itinerant fe

81 While magnetic fluctuations play an important role in the mate

82 n biomedicine, magnetic particle imaging and magnetic fluid hyperthermia, are highlighted.

83 In addition, magnetic force microscopy reveals the ability to tune DM

84 tion, enzymes, and electric, mechanical, and magnetic forces.

85 This, we believe, suggests that (1) natal magnetic inclination is learnt prior to fledging and (2)

86 oduce an innovative wireless system based on magnetic induction for human activity recognition to tac

87 ich defects are responsible for the emergent magnetic interfaces.

88 nearly ideal QD doping when incorporation of magnetic ions occurs solely via addition of Mn-Se units

89 In this study, biocompatible magnetic iron oxide nanoparticles (IONPs) stabilized wit

90 s Review describes a density-based technique-magnetic levitation (which we call "MagLev" for simplici

91 time a rapid creation of 3D scaffolds using magnetic levitation of calcium phosphate particles.

92 However, many commonly used magnetic materials (e.g., Ni and Co) are not biocompatib

93 They capture the properties of many magnetic materials, but also extend to other systems, su

94 transition materials, photomagnets, solvato-magnetic materials, including molecular magnetic sponges

95 chiral magnets and photomagnets, SHG-active magnetic materials, pyro- and ferroelectrics, ionic cond

96 Magnetic measurements of these assemblies reveal Curie-W

97 ies (GB defects) on the electrical, optical, magnetic, mechanical and chemical properties of nanocrys

98 to plasmonic structures, the all-dielectric magnetic metasurface is shown to exhibit much higher tra

99 The hybrid magnetic micropillars reported here provide a versatile

100 omically thin LCO layers, surprisingly large magnetic moment (0.5 mu(B) /Co) and Curie temperature (7

101 lain the formation of the very large ordered magnetic moments in [Formula: see text] and [Formula: se

102 irectly by acting on the interaction between magnetic moments.

103 et no analogue of these effects for emergent magnetic monopoles.

104 Magnetosomes are intracellular magnetic nanocrystals composed of magnetite (Fe(3)O(4))

105 y based on C2CA and optomagnetic analysis of magnetic nanoparticle (MNP) assembly.

106 entration by the help of stearic acid coated magnetic nanoparticle (SAC-MNPs) based sonication assist

107 Magnetic nanoparticles are currently the focus of invest

108 immobilized onto polyethylene glycol grafted magnetic nanoparticles via trichlorotriazine with high l

109 nding of the domain wall (DW) dynamics along magnetic nanowires is crucial for spintronic application

110 emergence of exotic functionalities, such as magnetic order for cyanide-bridged bimetallic coordinati

111 selective Mott phase (OSMP) induce an exotic magnetic order, never reported before.

112 , which shows long-range entanglement and no magnetic ordering down to 0 K.

113 the Te dopants and the surface-state-induced magnetic ordering.

114 tly, considerable attention has been paid to magnetic particle imaging (MPI) because of its better se

115 Two applications in biomedicine, magnetic particle imaging and magnetic fluid hyperthermi

116 nomagnetic separation with antiCD81 modified magnetic particles and the labeling based on CD24 and CD

117 peak in specific heat, and pressure induced magnetic phase transitions), we present a unifying dynam

118 an anomalous peak in specific heat at low T, magnetic phase transitions, and no mixed valency), YbB(6

119 Being able to electrically manipulate the magnetic properties in recently discovered van der Waals

120 nnel junctions that form building blocks for magnetic random access memories and magnetic sensors.

121 lectron diffusion region (EDR) of asymmetric magnetic reconnection at Earth's magnetopause.

122 tonians from data, and to identify different magnetic regimes.

123 and Co) are not biocompatible, possess weak magnetic remanence (Fe(3) O(4) ), or cannot be implement

124 Cardiovascular magnetic resonance (CMR) included gadobutrol-enhanced fi

125 ion <40%) referred for stress cardiovascular magnetic resonance (CMR) may have a less optimal hemodyn

126 med to test the efficacy of ablating cardiac magnetic resonance (CMR)-detected atrial fibrosis plus p

127 or dentate nucleus on unenhanced T1-weighted magnetic resonance (MR) images after exposure to various

128 this study was to assess the validity of DW magnetic resonance (MR) imaging in comparison with contr

129 Magnetic resonance (MR) imaging studies have demonstrate

130 With 3D Magnetic Resonance (MR) Spirometry, local ventilation ca

131 ischemic stroke with unknown time of onset, magnetic resonance (MR)-based diffusion-weighted imaging

132 Quantum mechanical/nuclear magnetic resonance (NMR) approaches are widely used for

133 ride, based on chemical analysis and nuclear magnetic resonance (NMR) data.

134 echniques are X-ray crystallography, nuclear magnetic resonance (NMR) imaging, and cryogenic electron

135 Nuclear magnetic resonance (NMR) spectroscopy and mass spectrome

136 Sera were analysed using (1)H nuclear magnetic resonance (NMR) spectroscopy and mass spectrome

137 re we show by circular dichroism and nuclear magnetic resonance (NMR) spectroscopy that Spp2 is intri

138 chrotron X-ray diffraction (XRD) and nuclear magnetic resonance (NMR) spectroscopy to demonstrate tha

139 ion mechanism was examined employing nuclear magnetic resonance (NMR) spectroscopy to determine the r

140 lysis of its glycan interactions via nuclear magnetic resonance (NMR) spectroscopy.

141 Here, solution nuclear magnetic resonance (NMR), neutron reflectometry (NR), an

142 (1)H quantitative Nuclear Magnetic Resonance (qNMR) spectroscopy technique has cer

143 ar polarization-enhanced solid-state nuclear magnetic resonance and cryo-electron microscopy, we show

144 2D proton nuclear magnetic resonance and SAXS data provided constraints on

145 Mass spectrometry and nuclear magnetic resonance are the most commonly reported analyt

146 articipants with available FGF23 and cardiac magnetic resonance at 10-year follow-up, participants wi

147 s exist for analysing structural T1-weighted magnetic resonance brain images.

148 oud University Nijmegen Diffusion Tensor and Magnetic Resonance Cohort (RUN DMC; n=352).

149 the diagnostic accuracy of three-dimensional magnetic resonance elastography (3D-MRE), with shear sti

150 termine the success rate of obtaining usable magnetic resonance images in infants with the sole use o

151 In addition, brain magnetic resonance images were obtained 12-weeks post-st

152 Brain magnetic resonance images were obtained at baseline, eve

153 ram locations were coregistered with cardiac magnetic resonance images.

154 lities reminiscent of human disease in brain magnetic resonance images.

155 Gray Matter Volume (GMV) was derived from magnetic resonance imaging (3T, FLAIR) and adjusted for

156 linical implementation of abbreviated breast magnetic resonance imaging (AB-MR) as a supplemental scr

157 Prior single-site diffusion magnetic resonance imaging (dMRI) studies have reported

158 ng (rs-fMRI) data and the diffusion-weighted magnetic resonance imaging (dw-MRI) data.

159 inary evidence that diffusion and functional magnetic resonance imaging (fMRI) are capable of resolvi

160 pping market as well as follow up functional magnetic resonance imaging (fMRI) in the more restricted

161 Functional magnetic resonance imaging (fMRI) revealed two distinct

162 f own- and other-race faces using functional Magnetic Resonance Imaging (fMRI).

163 ggested by perineural enhancement on orbital magnetic resonance imaging (MRI) and confirmed by biopsy

164 Magnetic resonance imaging (MRI) and evaluation of the R

165 brain using ultra-high resolution functional magnetic resonance imaging (MRI) at high magnetic field

166 tudy was to directly compare CT-based NWU to magnetic resonance imaging (MRI) at identifying patients

167 Patients with MCI underwent the magnetic resonance imaging (MRI) before and after 6-mont

168 elates are a mainstay of contrast agents for magnetic resonance imaging (MRI) in the clinic.

169 d characterisation of bone tumours; however, magnetic resonance imaging (MRI) is the ideal modality f

170 al importance of acquired asymptomatic brain magnetic resonance imaging (MRI) lesions in a prospectiv

171 udy to correlate the detected-ON invasion by Magnetic resonance imaging (MRI) with the corresponding

172 s for preoperative Computed Tomography (CT), Magnetic Resonance Imaging (MRI), and combined CT and MR

173 sitron emission tomography [PET]) structural magnetic resonance imaging (MRI), and resting state func

174 longitudinally conducting rotarod, diffusion magnetic resonance imaging (MRI), resting-state function

175 patients were scanned by ultrasound SWE and magnetic resonance imaging (MRI).

176 em diagnosis of sCJD subtype using diffusion magnetic resonance imaging (MRI).

177 rived from both the resting state functional magnetic resonance imaging (rs-fMRI) data and the diffus

178 n a balanced order, followed by a functional magnetic resonance imaging and electromyography (EMG) ex

179 n of causality using longitudinal anatomical magnetic resonance imaging and neurocognitive assessment

180 g ultra-high field functional and structural magnetic resonance imaging at 7 T, we found that lower D

181 on with plasma concentrations, we used (7)Li magnetic resonance imaging at 7T in euthymic patients wi

182 s sampled postnatally, and infants underwent magnetic resonance imaging at term-equivalent age.

183 report an analysis of resting-state FC using magnetic resonance imaging data from 101 CNV carriers, 7

184 s question, we collected hours of functional magnetic resonance imaging data from human subjects list

185 ed (11) C-PBR28 positron emission tomography/magnetic resonance imaging data of 18kDa translocator pr

186 Structural magnetic resonance imaging data were available for 250 p

187 ions for examinations routinely conducted in magnetic resonance imaging departments in patients with

188 ine metal concentrations in association with magnetic resonance imaging findings of vascular brain in

189 ifferent information types, using functional magnetic resonance imaging in combination with multivoxe

190 field (7-tesla), high-resolution functional magnetic resonance imaging in humans, we examined the re

191 ng eye-tracking, pupillometry and functional magnetic resonance imaging informed by computational mod

192 Magnetic resonance imaging of the pancreas is increasing

193 Increasing interests in using magnetic resonance imaging only in radiation therapy req

194 s of disease activity (relapses, disability, magnetic resonance imaging parameters) up to 6 years lat

195 asured at 60 Hz, damping ratio at 40 Hz, and magnetic resonance imaging proton density fat fraction (

196 Resting-state functional magnetic resonance imaging scans were acquired from 25 u

197 Magnetic resonance imaging scans were obtained in 3 pati

198 Kingdom, who provided questionnaire data and Magnetic Resonance Imaging scans.

199 ducted a quantitative analysis of functional magnetic resonance imaging studies in healthy developmen

200 Cross-sectional diffusion-weighted magnetic resonance imaging studies suggest that young au

201 we use behavioural modelling and functional magnetic resonance imaging to describe how humans select

202 this study, we used resting-state functional magnetic resonance imaging to evaluate changes in global

203 Here, we used functional connectivity magnetic resonance imaging to examine whole-brain functi

204 imates, we examine the accuracy of diffusion magnetic resonance imaging tractography to replicate tho

205 ctions in the human brain based on diffusion magnetic resonance imaging tractography.

206 Magnetic resonance imaging was used to acquire T1-weight

207 In this study, we combined functional magnetic resonance imaging with semantic content analyse

208 ere interviewed and scanned using functional magnetic resonance imaging, and functional connectivity

209 ed focal cerebral blood volume on functional magnetic resonance imaging, but only baseline focal hipp

210 es to map Tissue Oxygenation Levels (PISTOL) magnetic resonance imaging.

211 hy older controls (PAH control) using proton magnetic resonance imaging.

212 o patients showed optic nerve enhancement on magnetic resonance imaging.

213 sk of sudden cardiac death underwent cardiac magnetic resonance imaging.

214 perception during and outside of functional magnetic resonance imaging.

215 ive value of tissue biomarkers compared with magnetic resonance imaging.

216 erstitial sodium stores determined by (23)Na-magnetic resonance imaging.

217 A proton nuclear magnetic resonance metabolomics platform provided 230 me

218 cence (MEL) and pulsed electrically detected magnetic resonance of organic light-emitting diodes base

219 e measured on days 0 and 7 using fluorine-19 magnetic resonance relaxometry and a fiber-optic probe.

220 1D (1)H nuclear magnetic resonance spectra were acquired in plasma sampl

221 Magnetic resonance spectroscopic imaging (MRSI) 7 Tesla

222 PET) and GABA concentrations by using proton magnetic resonance spectroscopy ((1)H-MRS) in 28 adults

223 ment in chronically-stressed mice using (1)H-magnetic resonance spectroscopy ((1)H-MRS).

224 lucidated by one and two-dimensional nuclear magnetic resonance spectroscopy (1D and 2D NMR) and high

225 of Czech origin were analysed using nuclear magnetic resonance spectroscopy (NMR) with the aim of bu

226 ecules is typically determined using nuclear magnetic resonance spectroscopy (NMR).

227 ies measured by pulse field gradient nuclear magnetic resonance spectroscopy (PFG-NMR, which gives mo

228 cetylated by mono- and bidimensional Nuclear Magnetic Resonance spectroscopy and mass spectrometry.

229 PubMed comprised articles with search terms (magnetic resonance spectroscopy OR MRS) AND (glutamate O

230 oscopic analysis performed by proton-nuclear magnetic resonance spectroscopy showed that the particul

231 However, most prior magnetic resonance spectroscopy studies had small sample

232 ng, dynamic contrast enhanced sequences, and magnetic resonance spectroscopy that may provide insight

233 er and 51 healthy control subjects underwent magnetic resonance spectroscopy to measure glutamate, gl

234 lar dichroism, thermal denaturation, nuclear magnetic resonance spectroscopy, analytical ultracentrif

235 ospray ionization mass spectrometry, nuclear magnetic resonance spectroscopy, and density functional

236 t polymer chain ends is evidenced by nuclear magnetic resonance spectroscopy, end group analysis, and

237 n/deuterium fractionation factors by nuclear magnetic resonance spectroscopy.

238 ysis, thermogravimetric analysis and nuclear magnetic resonance spectroscopy.

239 roscopic resolution using zero-field nuclear magnetic resonance spectroscopy.

240 Nuclear magnetic resonance studies and density functional theory

241 o analyze 20 years of clinical, genetic, and magnetic resonance studies from our Leigh syndrome cohor

242 (n = 188,577) and UK Biobank Cardiovascular Magnetic Resonance substudy (n = 16,923) for sensitivity

243 ate dehydrogenase using hyperpolarized (13)C magnetic resonance, a technique which can be used for in

244 m fluorescence, luminescence, photoacoustic, magnetic resonance, and positron emission tomography mod

245 es has been evaluated by time domain Nuclear Magnetic Resonance, Thermogravimetric analysis and quant

246 We analyzed nuclear magnetic resonance-derived lipoprotein and metabolite pr

247 Comparison of nuclear magnetic resonance-derived structures revealed some diff

248 isotope-labeled GPCR for studies by nuclear magnetic resonance.

249 ur layers of conductively-coupled split-cube magnetic resonators, appropriately rotated to each other

250 sea, and its universality class in the local magnetic response is unaffected by the itinerant gapless

251 possible to obtain broadly tunable effective magnetic responses by introducing a single, nonmagnetic

252 in 2D monolayer regimes, leading to diluted magnetic semiconductor (DMS) materials.

253 vious efforts to form two-dimensional dilute magnetic semiconductors utilized extrinsic doping techni

254 it a potential candidate for a wide range of magnetic sensing applications.

255 and spin-polarized currents is essential for magnetic sensors and data storage devices(5).

256 ocks for magnetic random access memories and magnetic sensors.

257 s the role of faceting and elongation on the magnetic shape anisotropy.

258 Here, a novel magnetic shape memory polymer composite is reported to a

259 onic phenomena, the electronic transport and magnetic signature of the heterointerface are significan

260 Magnetic skyrmions are topologically nontrivial particle

261 peptide nucleic acid (PNA) immobilized on a magnetic solid support as a capture element.

262 lumes, followed by rapid flow, high-gradient magnetic sorting of untagged CTCs, provides a technology

263 vato-magnetic materials, including molecular magnetic sponges, luminescent magnets, chiral magnets an

264 d to the creation of atypical stars (such as magnetic stars(3), blue stragglers(4) and rapid rotators

265 An alternative approach is to change the magnetic state directly by acting on the interaction bet

266 rowing evidence that repetitive transcranial magnetic stimulation (rTMS) can be used as a treatment f

267 Here, we combined transcranial magnetic stimulation (TMS) and fMRI to test the role of

268 Here we used fMRI-guided transcranial magnetic stimulation (TMS) and simultaneous electroencep

269 TUS transducer was coupled to a transcranial magnetic stimulation (TMS) coil.

270 ts who received left prefrontal transcranial magnetic stimulation (TMS) for treatment of depression (

271 Transcranial magnetic stimulation (TMS) measures of corticospinal exc

272 ween trigeminal stimulation and transcranial magnetic stimulation (TMS) of fM1 was 15-30 ms.

273 nd neural plasticity often used transcranial magnetic stimulation (TMS) of hand motor cortex (M1) as

274 ntrols, we applied paired-pulse transcranial magnetic stimulation (TMS) protocols to evaluate the exc

275 ics of relevant processes using transcranial magnetic stimulation (TMS).

276 spinal excitability (CSE) using transcranial magnetic stimulation (TMS).

277 ode with continuous theta-burst transcranial magnetic stimulation in a randomized, sham-controlled de

278 onotherapy (n = 35), repetitive transcranial magnetic stimulation monotherapy (n = 35), or sham stimu

279 d potentials (MEPs) elicited by transcranial magnetic stimulation over the arm representation of the

280 r and sensory cortices by using transcranial magnetic stimulation techniques.

281 s an updated form of repetitive transcranial magnetic stimulation, and it is an effective add-on inte

282 individualized therapies (e.g., transcranial magnetic stimulation, intracerebral stem/progenitor cell

283 h as electroconvulsive therapy, transcranial magnetic stimulation, ketamine infusions, and, more rece

284 nge field is highly sensitive to the layered magnetic structure as a whole.

285 The ability to make controlled patterns of magnetic structures within a nonmagnetic background is e

286 iffraction studies, solution and solid-state magnetic studies, and (57)Fe Mossbauer spectroscopy has

287 e a groundwork for the future development of magnetic susceptibility as a quantitative biomarker for

288 the quest of topological Dirac fermions in a magnetic system.

289 oncollinear spin textures in low-dimensional magnetic systems have been studied for decades because o

290 Here, using our magnetic tape head tweezers design, we measure the foldi

291 his material's topological properties to its magnetic texture leads to a strongly exchange biased ano

292 Moreover, significantly strong transverse magnetic (TM) polarized emission is recorded, which is ~

293 arge non-reciprocal charge transport(3) in a magnetic topological insulator, Cr-doped (Bi,Sb)(2)Te(3)

294 Magnetic topological insulators (TI) provide an importan

295 Magnetic transfer ratio asymmetry (MTR(asym)) at 3.0 ppm

296 l IrMn has been used as the pinning layer in magnetic tunnel junctions that form building blocks for

297 A magnetic tweezer assay was introduced to apply pico-Newt

298 We use magnetic tweezers force spectroscopy to measure changes

299 ule tools and techniques such as optical and magnetic tweezers, atomic force microscopy (AFM), single

300 The process was based on the utilization of magnetic zinc-imidazole frameworks (ZIF-4), as a highly