SECTION LISTING

BROWSE VOLUMES

Year Range:

2013

Volume 102

2012

Volume 101

2012

Volume 100

2011

Volume 99

2011

Volume 98

2010

Volume 97

2010

Volume 96

2009

Volume 95

2009

Volume 94

2008

Volume 93

2008

Volume 92

2007

Volume 91

2007

Volume 90

2006

Volume 89

2006

Volume 88

2005

Volume 87

2005

Volume 86

2004

Volume 85

2004

Volume 84

2003

Volume 83

2003

Volume 82

2002

Volume 81

2002

Volume 80

2001

Volume 79

2001

Volume 78

2000

Volume 77

2000

Volume 76

Issue 26 | 26 Jun | pp. 3849-4013

Issue 25 | 19 Jun | pp. 3673-3830

Issue 24 | 12 Jun | pp. 3501-3655

Issue 23 | 5 Jun | pp. 3337-3483

Issue 22 | 29 May | pp. 3161-3321

Issue 21 | 22 May | pp. 2979-3144

Issue 20 | 15 May | pp. 2815-2963

Issue 19 | 8 May | pp. 2647-2800

Issue 18 | 1 May | pp. 2487-2632

Issue 17 | 24 Apr | pp. 2325-2474

Issue 16 | 17 Apr | pp. 2149-2312

Issue 15 | 10 Apr | pp. 1969-2136

Issue 14 | 3 Apr | pp. 1795-1957

Issue 13 | 27 Mar | pp. 1641-1784

Issue 12 | 20 Mar | pp. 1489-1630

Issue 11 | 13 Mar | pp. 1353-1479

Issue 10 | 6 Mar | pp. 1219-1345

Issue 9 | 28 Feb | pp. 1083-1210

Issue 8 | 21 Feb | pp. 943-1075

Issue 7 | 14 Feb | pp. 795-936

Issue 6 | 7 Feb | pp. 661-788

Issue 5 | 31 Jan | pp. 523-656

Issue 4 | 24 Jan | pp. 397-519

Issue 3 | 17 Jan | pp. 253-392

Issue 2 | 10 Jan | pp. 131-250

Issue 1 | 3 Jan | pp. 1-128

1999

Volume 75

1999

Volume 74

1998

Volume 73

1998

Volume 72

1997

Volume 71

1997

Volume 70

1996

Volume 69

1996

Volume 68

1995

Volume 67

1995

Volume 66

1994

Volume 65

1994

Volume 64

1993

Volume 63

1993

Volume 62

1992

Volume 61

1992

Volume 60

1991

Volume 59

1991

Volume 58

1990

Volume 57

1990

Volume 56

1989

Volume 55

1989

Volume 54

1988

Volume 53

1988

Volume 52

1987

Volume 51

1987

Volume 50

1986

Volume 49

1986

Volume 48

1985

Volume 47

1985

Volume 46

1984

Volume 45

1984

Volume 44

1983

Volume 43

1983

Volume 42

1982

Volume 41

1982

Volume 40

1981

Volume 39

1981

Volume 38

1980

Volume 37

1980

Volume 36

1979

Volume 35

1979

Volume 34

1978

Volume 33

1978

Volume 32

1977

Volume 31

1977

Volume 30

1976

Volume 29

1976

Volume 28

1975

Volume 27

1975

Volume 26

1974

Volume 25

1974

Volume 24

1973

Volume 23

1973

Volume 22

1972

Volume 21

1972

Volume 20

1971

Volume 19

1971

Volume 18

1970

Volume 17

1970

Volume 16

1969

Volume 15

1969

Volume 14

1968

Volume 13

1968

Volume 12

1967

Volume 11

1967

Volume 10

1966

Volume 9

1966

Volume 8

1965

Volume 7

1965

Volume 6

1964

Volume 5

1964

Volume 4

1963

Volume 3

1963

Volume 2

1962

Volume 1

Search Issue | RSS Feeds

RSS
Previous Issue Next Issue

20 Mar 2000

Volume 76, Issue 12, pp. 1489-1630

Return to All Sections

Add

View

INTERDISCIPLINARY AND GENERAL PHYSICS

Select this Article

Growth model of coupled-fractal networks

R. Ugajin, M. Ohnishi, S. Hirata, A. Ishibashi, Y. Kuroki, and C. Ishimoto

Appl. Phys. Lett. 76, 1624 (2000); http://dx.doi.org/10.1063/1.126116 (3 pages) | Cited 3 times

Full Text: Read Online (HTML) | Download PDF

Show Abstract

We extended the dielectric breakdown model in order to generate networks of interacting objects, which are considered as coupled-fractal networks. In the proposed model, each object grows to be a random fractal if isolated, but connects with others if glued. The model is constructed based on a growth hypothesis in which the growth rate of each object is a product of the probability of receiving source materials from faraway and the probability of receiving adhesives from other grown objects. © 2000 American Institute of Physics.

Show PACS

05.45.Df	Fractals
68.65.-k	Low-dimensional, mesoscopic, nanoscale and other related systems: structure and nonelectronic properties

Select this Article

Single-domain spectroscopy of self-assembled photonic crystals

Yu. A. Vlasov, M. Deutsch, and D. J. Norris

Appl. Phys. Lett. 76, 1627 (2000); http://dx.doi.org/10.1063/1.126117 (3 pages) | Cited 60 times

Full Text: Read Online (HTML) | Download PDF

Show Abstract

We show how optical microscopy can be used to study the optical properties of a single crystalline domain in a self-assembled photonic crystal. By measuring spatially resolved reflection and emission spectra from a synthetic opal, inhomogeneities due to averaging over inherent disorder can be avoided. From “defect-free” reflection and emission spectra, the intrinsic photonic band structure can be extracted and inhibition of spontaneous emission can be verified. © 2000 American Institute of Physics.

Show PACS

42.50.-p	Quantum optics
42.70.Qs	Photonic bandgap materials
07.60.Pb	Conventional optical microscopes
78.55.Hx	Other solid inorganic materials
78.60.-b	Other luminescence and radiative recombination

Return to All Sections

SECTION LISTING

BROWSE VOLUMES

20 Mar 2000

Volume 76, Issue 12, pp. 1489-1630

Find articles by AUTHORNAME