ライフサイエンスコーパス: electromagnetic radiation

1 e, by measuring power consumption, timing or electromagnetic radiation).

2 personal computers, or studies investigating electromagnetic radiation.

3 modify the nature of their interaction with electromagnetic radiation.

4 extended pi-conjugated ligand upon suitable electromagnetic radiation.

5 heir electromagnetic response to an incident electromagnetic radiation.

6 , is driven by circularly-polarized infrared electromagnetic radiation.

7 he discussion of potential health hazards of electromagnetic radiation.

8 e use of natural oscillation sources such as electromagnetic radiation.

9 a new class of bright laboratory sources of electromagnetic radiation.

10 onse to three physical signals: sound waves, electromagnetic radiation and electric currents.

11 tracer using pulses of both radio-frequency electromagnetic radiation and magnetic-field gradients,

12 t phonon excitation by direct interaction of electromagnetic radiation and nuclei has not been demons

13 re will effectively act as a Faraday cage to electromagnetic radiation and therefore screen any form

14 agents, expose droplets to varying doses of electromagnetic radiation, and detect both live and dead

15 ut the discharge does not emit low-frequency electromagnetic radiation as normal lightning.

16 ing of five graphene layers shields 97.5% of electromagnetic radiation at frequencies below 1.2 THz.

17 th the ability to cleave DNA when excited by electromagnetic radiation but susceptible to degradation

18 he surface, the absorption and scattering of electromagnetic radiation by noble metal nanoparticles a

19 The emitted electromagnetic radiation can be explained with an eject

20 , powered chemically and/or by the energy of electromagnetic radiation, can give rise to the emergent

21 The internal phase profile of electromagnetic radiation determines many functional pro

22 All matter at finite temperatures emits electromagnetic radiation due to the thermally induced m

23 or thermonuclear energy that is observed as electromagnetic radiation emitted over weeks or more.

24 respect to the polarization direction of the electromagnetic radiation employed to excite the spectru

25 al activity of Electromagnetic Fields (EMFs)/Electromagnetic Radiation (EMR).

26 Detailed observations of outbursts of electromagnetic radiation, for which blazars are famous,

27 ption in humans occurs through absorption of electromagnetic radiation from 400 to 780 nm by photorec

28 It describes electromagnetic radiation from a charged particle moving

29 d therefore screen any form of interrogating electromagnetic radiation from penetrating, thus denying

30 s advantage of high-flux and high-brilliance electromagnetic radiation from synchrotron sources.

31 The detection of electromagnetic radiation from the same source has shown

32 n be exploited for localizing and amplifying electromagnetic radiation in nanoscale structures.

33 excitation and control of lattice motion by electromagnetic radiation in optical frequency range has

34 ransmission shows more advantages than other electromagnetic radiation in reacting with biological ti

35 mospheric air is still highly transparent to electromagnetic radiation in this spectral region, makin

36 The control of electromagnetic radiation in transformation optical meta

37 When electromagnetic radiation induces atomic transitions, th

38 bi oscillations describe the process whereby electromagnetic radiation interacts coherently with spin

39 Direct rectification of electromagnetic radiation is a well-established method f

40 of thermal heating from any other effect of electromagnetic radiation is completely impossible.

41 d to know how to accurately characterize the electromagnetic radiation (light) they are delivering to

42 us in vitro studies provide evidence that RF electromagnetic radiation modulates proliferation of hum

43 It is well known that electromagnetic radiation-radio waves-can in principle b

44 rescence, the absorption of short-wavelength electromagnetic radiation reemitted at longer wavelength

45 h conversion processes allow us to transform electromagnetic radiation so it may be more effectively

46 ces can be placed at the output facet of any electromagnetic radiation source to deflect electromagne

47 Two electromagnetic radiation sources were used to irradiate

48 Reversed Cherenkov radiation is the exotic electromagnetic radiation that is emitted in the opposit

49 erating bright isolated attosecond pulses of electromagnetic radiation throughout the soft X-ray regi

50 rtal exposures such as pesticides, plastics, electromagnetic radiation, trauma, and infections.

51 ls exhibit a very wide transmission range to electromagnetic radiation up to approximately 14 microm.

52 order of magnitude larger than that seen in electromagnetic radiation, which, together with an absen

53 ults provide a framework for freely steering electromagnetic radiation within photonic structures.