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1 acceleration with a kilotesla-level applied magnetic field.
2 s could be captured under the influence of a magnetic field.
3 photothermal conversion by simply applying a magnetic field.
4 ntial of coupled phonons with applied static magnetic field.
5 ts to temperatures of several kelvin at zero magnetic field.
6 se local control of actuation using a simple magnetic field.
7 uspended in a medium exposed to a stationary magnetic field.
8 etotactic bacteria is rendered unstable by a magnetic field.
9 he resonance frequency and H is the external magnetic field.
10 on advantages by the application of external magnetic field.
11 ectly linked to solar activity and the earth magnetic field.
12 emperature by measuring the associated stray magnetic field.
13 to the photo-excitation in the absence of a magnetic field.
14 transmission measurements in an oscillating magnetic field.
15 are sensitive to external stress and applied magnetic field.
16 a second one with the same, lower, or higher magnetic field.
17 bust plateau in the extreme quantum limit of magnetic field.
18 ferromagnetic to ferromagnetic at a critical magnetic field.
19 oylglycine) (PNAG) showed a good response to magnetic field.
20 spatial and temporal changes in the coronal magnetic field.
21 with complex hopping parameters even at zero magnetic field.
22 xciton-phonon interaction under a quantizing magnetic field.
23 precisely quantized Hall resistance at zero magnetic field.
24 e to sustain a ring current when placed in a magnetic field.
25 ilm layer, allowing steering under a uniform magnetic field.
26 tterned in response to a brief exposure to a magnetic field.
27 ting in a time-dependent change in the local magnetic field.
28 with a 100% on/off ratio under zero remnant magnetic field.
29 ease stepwise under a programmed alternating magnetic field.
30 lying an electric field in the presence of a magnetic field.
31 cles allowed movement of the structures in a magnetic field.
32 rly in the ground state in the presence of a magnetic field.
33 heir magnetism may contribute to its present magnetic field.
34 initial nuclear spin states with an external magnetic field.
35 ton source (SPS) in 3D space via an external magnetic field.
36 TRPV1, a non-selective cation channel, in a magnetic field.
37 g an insulator that can be extinguished by a magnetic field.
38 plane-of-sky component of the global coronal magnetic field.
39 is and a large anomalous Hall signal at zero magnetic field.
40 n be re-aligned upon change of a programming magnetic field.
41 sualized using MRI, and are retrievable in a magnetic field.
42 ot included any effects caused by their self-magnetic field.
43 hat enables graft retrieval under an applied magnetic field.
44 and reversible shape change under actuation magnetic fields.
45 hat operate without the need for oscillating magnetic fields.
46 ysics and applications in terms of ultrahigh magnetic fields.
47 erromagnetic/ferromagnetic domains at finite magnetic fields.
48 ice and static, gradient, and radiofrequency magnetic fields.
49 deep cryogenic temperatures and under strong magnetic fields.
50 e magnetic medium, which relies on effective magnetic fields.
51 se laser pulses is used to produce ultrahigh magnetic fields.
52 ing modification of the electron spectrum in magnetic fields.
53 roxide radical cosolutes, at multiple static magnetic fields.
54 , respectively, and are stabilized by modest magnetic fields.
55 tens of nm size, generating megatesla-order magnetic fields.
56 Chern insulators that are stabilized by weak magnetic fields.
57 romagnetic VSe(2) film subject to applied DC magnetic fields.
58 ibility broadening is negligible at ultralow magnetic fields.
59 uation through the combined use of light and magnetic fields.
60 norods could be collectively regulated using magnetic fields.
61 Hall effect of a single electron band at low magnetic fields.
62 with fast magic-angle spinning (MAS) at high magnetic fields ((1)H Larmor frequency of 800-1000 MHz),
64 resulting in a periodically modulated pseudo-magnetic field(10-14), which in turn creates a 'post-gra
66 o opposing magnets to create a gradient of a magnetic field, a glass capillary channel to retain the
67 of a general connection between rotation and magnetic field: a magnetic field naturally arises along
69 s into the magnetic layer, while an external magnetic field along the electric current direction is g
70 es of topological excitations under external magnetic field also provide crucial information for expe
72 oton-hyperpolarized molecules in the Earth's magnetic field (ALTADENA condition) or in a high magneti
73 in cancer cells under programmed alternating magnetic field (AMF) similar to the neutrophil activator
77 ch thin flakes, a combination of an in-plane magnetic field and a charge current flowing through Ta-a
78 ia array can move in response to an external magnetic field and can be locally actuated by targeted i
79 both tuning of the resistance hysteresis by magnetic field and electric-field switching of magnetiza
80 n empirically, little is known about how the magnetic field and magnetic properties of a solution aff
81 e of its optical response on an out-of-plane magnetic field and on the gate-tuned carrier density.
82 as well as the information of exchange rate, magnetic field and radio-frequency transmission inhomoge
84 depending on the relative orientation of the magnetic field and the light wavevector and on the absol
85 interaction energy of charged particles in a magnetic field and underlies the fractional quantum Hall
86 ould be moved through a constriction under a magnetic field and, at a second temperature, could grip
88 view, the response of inductive materials to magnetic fields and spin-polarized currents is essential
89 sample is field-cooled under an out-of-plane magnetic field, and an exchange spring-like magnetic dep
90 he relative alignments of the magnetization, magnetic field, and electrical current, we experimentall
91 inct Landau quantization on application of a magnetic field, and the quantized Landau fan structure f
92 e caused by a short exposure to pulsed 20-mT magnetic fields, and future work may examine greater mag
93 es of organic molecules can be influenced by magnetic fields, and these magnetic field effects are di
96 olution of the Raman spectra with increasing magnetic field applied perpendicular to the atomic layer
97 behavior above the spin-flop transition for magnetic fields applied along two orthogonal in-plane di
98 anomalous Josephson effect in the vectorial magnetic field are in agreement with our theoretical mod
99 atomic magnetometry to map the weak induced magnetic fields around Li-ion battery cells in a magneti
100 antiferromagnetic domain structures at zero magnetic field as well as antiferromagnetic/ferromagneti
101 l switching dynamics of the pre-polarisation magnetic field as well as the energy requirements, mecha
102 s aligned along the direction of the applied magnetic field, as expected for a pair of Majorana zero
103 irable orientations in a bimorph actuator by magnetic-field-assisted lithography, the bending of the
104 tion orientation is consistent with reversed magnetic field at the time of impact, the study of the P
105 derivative of the longitudinal resistance on magnetic field at the transition point follows a charact
106 demonstrate high performance in a few-Tesla magnetic field at which the sensors exhibit the quantum
111 HgTe 3D topological insulator are studied in magnetic fields B tilted by angle theta from the normal
113 is is typically achieved through an external magnetic field (B), which is practically cumbersome.
116 provide insights into the interplay between magnetic field, band structure and many-body interaction
119 combined presence of spin-orbit coupling and magnetic field breaks these symmetries and can lead to a
121 nction in a limited range of temperature and magnetic field, but Hall sensors in principle operate ov
122 onsive shape-morphing behaviors induced by a magnetic field can be digitally and repeatedly reprogram
123 fined to their lowest Landau level in a high magnetic field can form a variety of correlated states,
124 e results indicate that the application of a magnetic field can improve performance in a molecular se
125 erimentally that the often neglected optical magnetic field can nevertheless play an important role i
126 interaction revealed the presence of strong magnetic fields characteristic of Weibel Instability, an
127 e need to address the nuclei via oscillating magnetic fields complicates their integration in multi-s
129 treme variations in the direction of Earth's magnetic field contain important information regarding t
130 line anisotropy, meaning that small external magnetic fields could reverse the direction of their mag
131 the lowest Landau level owing to a synthetic magnetic field created by Floquet engineering(18) a twis
132 r observable features, such as luminosity or magnetic field, crucially depends on the poorly known he
138 compounds and their aggregates display clear magnetic field dependences up to 25 T, with the aggregat
140 nt density functional theory calculations of magnetic field-dependent phthalocyanine monomer and dime
141 of inequivalent Co(2+) sublattices generate magnetic-field-dependent ferroelectric polarization with
142 The levitation height of particles in the magnetic field depends on the magnetic susceptibility an
145 spin Hall angle(7-9), and when flipping the magnetic-field direction, reversing the magnon chirality
148 n the insulating limit, the application of a magnetic field drives a quantum phase transition to an e
149 we find magnetism to strengthen under strong magnetic fields due to suppression of the Kondo effect.
150 re chemical shift dispersion due to the high magnetic field, eddy currents caused by the pulsed magne
151 )(CH(2))(3)NH(3)), and 3D MAPbI(3) using the magnetic field effect (MFE) on conductivity and electrol
152 itting diode (OLED) displays a sign reversal magnetic field effect (MFE) when the applied magnetic fi
154 e zero-field peak results from a quasistatic magnetic-field effect of the RF radiation for periods co
156 asis we predict the feasibility of observing magnetic field effects under experimentally relevant con
157 to investigate the radical-pair mechanism of magnetic-field effects in photochemical reactions, allow
158 MNPs) by non-heating extremely low frequency magnetic field (ELF MF) is explored as a tool for non-in
159 paradigm has been developed that allows the magnetic field emissions generated by the electrical act
163 nsitions that are first-order insensitive to magnetic field fluctuations, enabling optical linewidths
166 ys have been proposed to generate switchable magnetic fields for pre-polarisation in Ultra-Low Field
167 charged particles are trapped by the Earth's magnetic field, forming the Van Allen radiation belts.
169 y a magnetic device that generates a uniform magnetic field gradient within a space that is sufficien
170 ic field, eddy currents caused by the pulsed magnetic field gradients, and possible mechanical instab
177 s of quark nuggets have assumed no intrinsic magnetic field; however, Tatsumi found that quark nugget
178 e, parahydrogen bubbling within a microtesla magnetic field (i.e. under conditions of SABRE in shield
179 te the band topology modification via a weak magnetic field in a ferromagnetic Weyl semimetal candida
180 s can be assessed by rheo-microMRI at a high magnetic field in a noninvasive, quantitative, and real-
182 toresistance effect that appears around zero magnetic field in high mobility GaAs/AlGaAs 2DES (~10(7)
184 polaritons up to 200 kelvin without external magnetic field in monolayer WS(2) excitons coupled to a
189 At temperature T < ~17 K, the state of near-magnetic field-independent resistance, which is due to s
190 bserved enhanced VZS arises from an internal magnetic field induced by the tridopant clusters, which
193 ging, addressing image distortion because of magnetic field inhomogeneities, reproducible quantitativ
202 in a paramagnetic liquid under a nonuniform magnetic field, is a powerful tool for determining densi
203 cle distance and crystal symmetry, while the magnetic field leads to anisotropic crystal growth.
208 he dayside aurora is closely associated with magnetic field merging at the dayside magnetopause.
209 iggered by an exogenous circularly polarized magnetic field (MF) to enhance ferroptosis-like cell-dea
210 ash photolysis corroborated with an external magnetic field (MF), we have detected the transient gemi
211 ed meteorite samples with the ultrasensitive magnetic field modulated microwave spectroscopy (MFMMS)
212 ction between rotation and magnetic field: a magnetic field naturally arises along the fluid vorticit
214 hat multiple magnons participate in creating magnetic field noise below the ferromagnetic gap frequen
215 eld of up to 9 tesla, with an upper critical magnetic field of about 62 tesla according to the Ginzbu
216 We image the dynamic response to a 500 MHz magnetic field of the complex three-dimensional magnetiz
218 the transition temperature under an external magnetic field of up to 9 tesla, with an upper critical
219 f-filling can reappear in small out-of-plane magnetic fields of 0.4 tesla, giving rise to quantized H
220 in pO(2) sensitivity was observed at higher magnetic fields of 7 T and 9.4 T for HMDSO and OMTSO.
225 rnal forces are applied on the fluid and the magnetic field only exerts an external torque aligning m
226 device's miniaturization, material, and zero-magnetic-field operation are important advances for rare
228 hat are predicted to give rise, under modest magnetic fields or strain, to topological semimetallic b
229 w that this phenomenon is not limited to low magnetic fields or the use of resonators with high-quali
230 rmi acceleration due to transport across the magnetic field, or if a combination of both mechanisms i
231 ining the behavior at the highest accessible magnetic fields, our results imply a different origin fo
232 etic field (ALTADENA condition) or in a high magnetic field (PASADENA condition) to induce RASER with
233 specific absorption rate (SAR) and change in magnetic field per unit time (dB/dt), maximum specific e
234 t of pai-electrons upon the application of a magnetic field perpendicular to the pai-system of the mo
238 le possibilities to achieve cilia actuation, magnetic fields present an opportunity given their quick
240 cetate-1-(13)C, resulting from zero-crossing magnetic field ramps of various durations, amplitudes, a
241 magnetic field effect (MFE) when the applied magnetic field range is reduced to the sub-milliTesla ra
242 ine)aluminium-based (Alq(3)) OLED within the magnetic field range of +/- 500 uT with the earth magnet
243 htside aurora, which is controlled mainly by magnetic field reconnection in the magnetotail, the days
246 two-dimensional electron systems in a strong magnetic field revealed the quantum Hall effect(1), a to
249 T, with the aggregates showing more drastic magnetic field sensitivities depending on the intermolec
252 discovery of a C = 2 Chern insulator at zero magnetic field should open up opportunities for discover
253 tion efficiency as a function of the applied magnetic field, showing potential for wirelessly control
255 ical hypotheses, a weak 7 MHz radiofrequency magnetic field significantly reduces the biological resp
256 t junctions, in combination with an external magnetic field, significantly enhanced both DOX-EDT-IONP
257 cs, including effective spin-orbit coupling, magnetic fields, spin-momentum locking, a Meissner-to-vo
260 quires the acquisition of images at variable magnetic field strength as provided by fast field cyclin
261 The results herein communicate the highest magnetic field strength data on active zeolite catalyst
263 ds the threshold for dynamo activity and the magnetic field strength is similar to that observed in t
269 e accurately predicted by changes in Earth's magnetic field, suggesting that these birds rely on a ge
270 The response of these correlated states to magnetic fields suggests evidence of spin-polarized grou
271 al strategy incorporating pulse-programmable magnetic field sweeping and in situ detection has been d
272 cterize the tunneling magnetoresistance, the magnetic field switching, and the current-induced switch
273 elimagnet occurs only over a very restricted magnetic field-temperature phase space and often in the
278 rticle trajectories, accurate values for the magnetic field through which charged species traverse ar
279 he violation of time-reversal symmetry via a magnetic field; thus establishing CPA beyond its initial
281 omyocytes and applying a short-term external magnetic field to orient the cells along the applied fie
282 SPS in the devices is driven by the external magnetic field to perform different movements in a 3D fl
285 u[Formula: see text]PO[Formula: see text] in magnetic fields up to 45 T, revealing a field-induced sp
287 ence Devices (SQUIDs) for measurement of the magnetic field vector, highly sensitive Superconducting
288 relied on transducing electric signals into magnetic fields via the electron-nuclear hyperfine inter
289 lls to sequential 50- and 385-Hz oscillating magnetic fields was sufficient to induce intracellular p
290 model with Heisenberg XY interactions and no magnetic field, we observe an anomaly in quantum phases
291 ividual layer magnetization in CrI(3) with a magnetic field, we show that the spin-dependent charge t
293 vanishing longitudinal resistance under zero magnetic field (where h is the Planck constant, e is the
294 in the real space by applying a local pulsed magnetic field, which causes their motion in the opposit
295 ignment of nuclear spins with applied static magnetic field, which is called nuclear spin polarizatio
296 sensitive to the presence of a perpendicular magnetic field, which strongly modifies the spectroscopi
297 is observed to oscillate in a perpendicular magnetic field with a flux period of h/e (h is Planck's
299 rforming rheo-microMRI velocimetry at a high magnetic field with strong pulsed field gradients has cl
300 Taken together, the data show that applied magnetic fields with magnetic nanoparticles can be delib