1. Global Photons

2. global photons

3. A wavelength shifter is a photofluorescent material that absorbs higher frequency photons and emits lower frequency photons.

4. Photons from the sun.

5. Well, because we're using photons.

6. These bands allow the absorption of low-energy photons in addition to the usual higher-energy photons.

7. By intersecting photons with infrasound waves,

8. Photons have no mass—they are weightless.

9. We're using photons to excite electrons in chlorophyil.

10. interaction of ionizing radiation and photons with matter;

11. interaction of ionizing radiation and photons with matter

12. • Photons from 100-200 nm absorbed in the air

13. However, no other muons, electrons, photons, or hadrons were detected.

14. • Photons from 200-280 nm absorbed by the ozone layer

15. The sample absorbs energy, i.e., photons, from the radiating field.

16. Events where only two photons hit out detector are very rare.

17. At least one active illumination source emits the second photons.

18. However, detailed information about the absorbed photons is largely lacking.

19. When an atom (or some other two-level system) is illuminated by a coherent beam of photons, it will cyclically absorb photons and re-emit them by stimulated emission.

20. During photosynthesis, energy carried by photons is absorbed by light-harvesting antennas.

21. They subsequently de - excite and emit mid - infrared light particles, or photons.

22. The cavities physically constrain the wavelength of photons the atoms emit or absorb.

23. For every two Critical Photons you will receive 2 Antimatter and 2 Hydrogen

24. Axions can be detected because they convert to photons in strong magnetic fields

25. This is achieved by selecting higher transition probabilities for photons in the transition between adjacent resonances, i.e. the initial resonances and the target resonance, than the corresponding absorption possibilities for said photons.

26. And because of the special quantum properties of photons, there's a very small number of possible new particles -- these mythical bicycles -- that can give birth to only two photons.

27. What you're seeing is a computer-driven image created by photons and force fields.

28. Examples of Bosons include:Gluons,Photons,W and Z Bosons and Higgs Boson.

29. The photons bounce off walls, all the way back to that diode.

30. Alicia is the only character that can jump, swing a sword, and shoot photons.

31. Photons penetrating into a dielectric polarize it and , in turn , are partially canceled out.

32. In certain cases, each subcell is designed to absorb a substantially same amount of solar photons.

33. The photoactive layer absorbs photons transmitted through the top electrode and generates charge carriers.

34. • Photons between 280-297 nm absorbed by the ozone layer, 5% reaches the earth

35. As the photons are absorbed, the photosensitive elements in the layers accumulate electrical charges.

36. Used with lower energy photons Cast Collimators are casted and cut into its desired shapes

37. Many of the photons eventually reach the cap and then they explode in various directions.

38. 19 The aluminized Mylar reflects sunlight, thereby deriving a little kick from the recoiling photons.

39. The luminescent solar concentrator device can comprise a planar layer that acts to absorb photons.

40. And uses those photons in conjunction with water to produce ATP and reduce NADP plus to NADPH.

41. Inside the jet, high energy photons and particles interact with each other and the strong magnetic field.

42. Electrons can absorb energy from photons when irradiated, but they usually follow an "all or nothing" principle.

43. In some embodiments, photons are excited to move between conduction and valence bands in the ablated material.

44. In the experiment, we anda six - photon interferometer to teleport an arbitrary polarization state of two photons.

45. Light, for example, is also made up of photons, but we don’t mind a little light!

46. Redshift will stretch ancient, incoming photons (even gamma rays) to undetectably long wavelengths and low energies.

47. All astronomical objects are affected by extinction, the absorption of photons by the interstellar medium.

48. The streams of photons, called electromagnetic radiation, are given different names depending on their wavelengths.

49. The higher the number of photons, the stronger is the amplification of the light.

50. In DSSCs, a photoactive dye absorbs photons and uses their energy to excite electrons.

51. Anthracene is used as a scintillator for detectors of high energy photons, electrons and alpha particles

52. The protons and Antiprotons also have a cloud of photons around them which may interact with the photons in the opposite beam to produce pairs of particles which may be observed in a detector

53. : the nonuniform distribution of elementary particles (such as photons or fermions) in a beam Researchers term this unusual pattern of photon emission anti-Bunching, which means there is a significant time delay between successive photons when they are emitted …

54. The 'lost' energy is emitted as X-ray photons, specifically bremsstrahlung radiation (Bremsstrahlung is German for 'braking radiation').

55. In the case of APLI both absorbed photons have the same wavelength, which is called "1+1 REMPI".

56. The Dark Era begins when space is dominated by tiny particles such as photons, electrons and positrons.

57. NORM materials decay with the release of alpha particles, beta particles and/or gamma photons.

58. The absorbed dose rates due to the contaminant photons were measured for different geometric conditions.

59. How will you capture photons fast enough to propel the sail at speed and over long distances?

60. Solar cell concentrators, where photons are concentrated on an energy-absorbent material to facilitate conversion to electricity

61. Revolutionary photonic band gap structures amplify the absorption of red or near-infrared photons by the SMSCs.

62. These devices are similar to an integrated circuit and can detect the energy of incoming gamma ray photons.

63. The energy of X-ray/EUV photons is absorbed locally by the metal and semiconductor layers.

64. The eye absorbs photons, destroying them and translating the information they carry as it is recorded.

65. More generally, the normal concept of a Schrödinger probability wave function cannot be applied to photons.

66. Instead, their role was played by evanescent photons continually popping into existence around the strong pulse.

67. A Collimator is a device used to restrict the photon acceptance angle to provide positional information for detected photons

68. In practice, the LOR has a non-zero width as the emitted photons are not exactly 180 degrees apart.

69. These photons were from Lyman series transitions, putting them in the ultraviolet (UV) part of the electromagnetic spectrum.

70. A Collimator is the first processing layer of a gamma camera to encounter photons from radioactive source

71. And finally, individual photons from the Sun are absorbed in the plant by a pigment called chlorophyil.

72. The great advantage of using lower-energy photons rather than X-rays is the greater resolution attainable.

73. Commercially the radioactive isotope bismuth-213 can be produced by bombarding radium with bremsstrahlung photons from a linear particle accelerator.

74. The intermediate band allows for the absorption of low-energy photons that are otherwise transmitted through the photovoltaic material.

75. However, these effects are not specific to photons; exactly the same effects would be predicted for classical electromagnetic waves.

76. The continuous and broad energy distribution of Bremsstrahlung photons, however, imposes substantial challenges on accurate quantification of the activity distribution

77. HAYSTAC looks for photon signals (photons are particles of light or electromagnetic radiation) produced by Axions in a magnetic field.

78. Just like sound can echo off distant objects, light can echo too, when atoms absorb photons and re-emit them.

79. Compton Backscattering is a well‐established method to produce high‐energy photons (γ rays) for nuclear physics experiments

80. This switching may be induced by the absorption of photons, the application of an electric current, or thermally.