ライフサイエンスコーパス: form factor

1 tricity conversion within a millimeter-scale form factor.

2 inked to a tetrahedral carbon having a large form factor.

3 uWestern blot in a standard microscope slide form factor.

4 require substrates to have a two-dimensional form factor.

5 y dendrites, dendritic orientation, and soma form factor.

6 n, being of low cost, light weight and small form factor.

7 patibility, and availability in a variety of form factors.

8 devices that can take on a great variety of form factors.

9 dels to obtain structural results from these form factors.

10 ctron density models that use 38 independent form factors.

11 us (P) forms, which differ depending on soil forming factors.

12 require the combination of a thin, portable form factor, a high spatial resolution and a wide full-p

13 Using form factor analysis and quantitative Western blotting o

14 zed for average mitochondria shape, by using form factor and aspect ratio values, and membrane potent

15 nalyzed for mitochondrial shape change using Form Factor and Aspect Ratio values, and membrane potent

16 r, is to maintain low phase noise in reduced form factor and even integrated systems.

17 Its unique form factor and exceptional physical properties have the

18 Given the form factor and performance of this micro- and mesofluid

19 ation for X-ray scattering, considering both form factor and structure factor, as well as the use of

20 ose agreement between the predicted magnetic form factor and that of recent neutron-scattering experi

21 y when a charge density wave with d-symmetry form factor and wavevector QC = QP coexists with a d-sym

22 t the expense of increased propagation loss, form factor and weight.

23 d S-shape is investigated via calculation of form factors and established to be due to size-dependent

24 rgy storage in bulk materials with arbitrary form factors and with mechanical properties unique to bu

25 ta for the partial molecular volumes, areas, form factors, and order parameters.

26 ses, compatible with large-area and flexible form factors, and with additional functionality.

27 m, 84% over visible range), and an ultrathin form factor ( approximately 2.7 microm thickness).

28 tinued improvements in cost, scalability and form factor are required to realize their full potential

29 The phases of the x-ray form factors are derived for the ripple (Pbeta') thermod

30 The extracted form factors are robust against changes in experimental

31 e that the anomalous field dependence of the form factor arises from Pauli paramagnetic effects aroun

32 nce comes from a measurement of the magnetic form factor by inelastic neutron scattering; the data sh

33 se localized therapies exist in a variety of form factors designed to facilitate the delivery of drug

34 e of load-bearing power sources with various form-factor designs for wearable electronics.

35 11 ICT products, including large- and small-form-factor desktop and laptop personal computers, a thi

36 lity of the sensor was shown with a portable form factor device, demonstrating a comparable dynamic r

37 Artifacts in the magnitudes of the form factors due to liquid crystalline fluctuations have

38 owever, SMPs are limited to relatively small form factors due to their low recovery stresses.

39 nstrate that the three-dimensional (3D) zinc form-factor elevates the performance of nickel-zinc alka

40 the background condensate density and their form factor exhibits primarily s or s' symmetry.

41 Form factors F(q(z)) are obtained from a combination of

42 Data for the relative form factors F(q(z)) for DMPC were obtained using a comb

43 ensity profiles rho(z) and the corresponding form factors F(q(z)) on absolute scales.

44 riented stacks of bilayers provided relative form factors |F(q(z))| for high q(z), 0.22 < q(z) < 0.8

45 The corrected form factors fall on one smooth continuous transform F(q

46 We then derived an analytical form factor for accurately fitting the scattering data,

47 mables, low power, low cost, and unobtrusive form factors for Internet of Things, Industrial Internet

48 cattering measurements of the vortex lattice form factor in the heavy-fermion superconductor cerium-c

49 ense HKUST-1 coatings are grown onto various form factors, including polymer spheres, silicon wafers,

50 onsive to multiple chemicals in a variety of form factors, including skin patches and gloves-based se

51 -cobalt-indium (CeCoIn5) and found that this form factor increases with increasing field-opposite to

52 The x-ray form factor is consistent with that of uniformly charged

53 the compounding effects of non-climate soil forming factors is a nontrivial challenge that must be o

54 These features, together with compact form factors, low-cost fabrication procedures, simple re

55 y, user-definable transparency and ultrathin-form-factor microconcentrator designs.

56 Bilayer form factors obtained from x-ray scattering data taken w

57 harmonics expansion and combined to get the form factor of the assembly.

58 calculated as the ratio of the relativistic form factors of the phantom material and bone mineral.

59 This is demonstrated with two form factors; stretchable film appliques that interface

60 large momentum transfers where the magnetic form factor suppresses the spin fluctuation signal.

61 mproved lasers with high spectral purity, in form factors that are small and insensitive to environme

62 Daily Symptom Rating Form factors that were significantly more improved in th

63 ng specific panels of biochemical markers to form factors, the association of markers with imaging fe

64 der h increases, thereby underestimating the form factors used to obtain electron density profiles.

65 ely 10-100 pmol/L) circulates as the 2-chain form, factor VIIa.

66 r X is converted to its catalytically active form factor Xa by the binary complex of factor VIIa boun

67 Blood coagulation Factor X and its activated form Factor Xa play an essential role in the midphase of

68 p represents the initial inhibition of newly formed factor Xa.