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Nonlinear Guided Waves and Their Applications, 2001
We demonstrate experimentally and theoretically (both analytically and numerically) a new type of spatial soliton: a rotating "propeller" soliton. This is a composite soliton made of a rotating dipole component jointly trapped with a bell-shaped component. We observe as much as 239 degrees of rotation over 13 mm of propagation (6.5 diffraction lengths).
T, Carmon +5 more
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We demonstrate experimentally and theoretically (both analytically and numerically) a new type of spatial soliton: a rotating "propeller" soliton. This is a composite soliton made of a rotating dipole component jointly trapped with a bell-shaped component. We observe as much as 239 degrees of rotation over 13 mm of propagation (6.5 diffraction lengths).
T, Carmon +5 more
openaire +2 more sources
Journal of Mechanisms, 1967
This paper deals with the curves which in German literature are called "Polortkurven". The application of these curves to problems in the field of synthesis of mechanisms has been described by P. Lohse in several of his papers [1]. In this connection makes use of "Polortkuren" in the synthesis of four-bar linkages. In this connection he states a number
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This paper deals with the curves which in German literature are called "Polortkurven". The application of these curves to problems in the field of synthesis of mechanisms has been described by P. Lohse in several of his papers [1]. In this connection makes use of "Polortkuren" in the synthesis of four-bar linkages. In this connection he states a number
openaire +1 more source
Applied Optics, 1994
A simple equation is presented that describes the rotationof an image by a mirror or prism, and that can be used tocalculate the amount of image rotation in a complex opticalsystem. The equation also provides an intuitive understandingof heretofore mystical(1) optical devices such as derotationprisms (for example, the dove prism).
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A simple equation is presented that describes the rotationof an image by a mirror or prism, and that can be used tocalculate the amount of image rotation in a complex opticalsystem. The equation also provides an intuitive understandingof heretofore mystical(1) optical devices such as derotationprisms (for example, the dove prism).
openaire +2 more sources