ライフサイエンスコーパス: background radiation

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1 , quasars, pulsars, and the 3 degrees cosmic background radiation).

2 birds in the Chernobyl region in relation to background radiation.

3 ht 'ripples' as seen in the cosmic microwave background radiation.

4 also negatively correlated with the level of background radiation.

5 , which is only slightly higher than typical background radiation (3 mSv/year).

6 detections of anisotropy in cosmic microwave background radiation and observations of the large-scale

7 in adult bank voles is affected by ionizing background radiation, and potentially causing elevated l

8 ved anisotropies of the cosmic near-infrared background radiation are expected to have contributions

9 s); this energy now forms part of the cosmic background radiation at wavelengths near 1 mm.

10 cidence of cataracts increased with level of background radiation both in analyses based on a dichoto

11 (submm) galaxies have been resolved from the background radiation, but they have been difficult to st

12 The risk differences due to variation in background radiation can be larger than the risks associ

13 luctuations in the surface brightness of the background radiation caused by clustering or supercluste

14 ult of a search for anisotropy in the cosmic background radiation (CBR).

15 l comes from studies of the cosmic microwave background radiation (CMBR), the remnant heat from the i

16 e were exposed to 0.0002 cGy/min (~ 400-fold background radiation) continuously over 5 weeks.

17 on indicates that under these conditions the background radiation could have been released from a nea

18 and lead to a safer PET tracer with reduced background radiation dose.

19 members has been shown to be in the range of background radiation, even without restrictions on conta

20 vers a higher dose of radiation, the average background radiation exposure in the United States is 3

21 This background radiation gives rise mainly to random coincid

22 erefore possible that the elevated levels of background radiation in Chernobyl affect the ecology and

23 populations in areas with varying levels of background radiation in Chernobyl.

24 ld have produced significant cosmic infrared background radiation in the near-infrared, whose fluctua

25 high-dose procedures (>/=3 mSv; ie, 1 year's background radiation), including 1 (IQR, 1-2; mean, 1.8)

26 ysfunctional telomeres in DNA-PKcs-deficient backgrounds, radiation-induced instability, and breast c

27 precise measurements of the cosmic microwave background radiation, large galaxy redshift surveys, bet

28 ria isolated from the site with intermediate background radiation levels survived better and produced

29 from other study sites with higher or lower background radiation levels.

30 that high levels of spatial heterogeneity in background radiation may hamper adaptive life history re

31 primarily develop as a function of ionizing background radiation, most likely as a plastic response

32 with the average annual effective dose from background radiation of about 3 mSv.

33 nucleosynthesis provides (with the microwave background radiation) one of the two quantitative experi

34 n studies of health hazards from exposure to background radiation, radon in homes, radiation in the w

35 tive relationship between bird abundance and background radiation when the frequency of cataracts was

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