Diffractive optical element and optical system having the same
First Claim
Patent Images
1. A diffractive optical element comprising:
- L diffraction gratings, L being three or more, including a first diffraction grating, a second diffraction grating, and up through an L-th diffraction grating, wherein, letting a grating thickness of said first diffraction grating be denoted by d1, a grating thickness of said second diffraction grating be denoted by d2, a grating thickness of said L-th diffraction grating be denoted by dL, a refractive index of said first diffraction grating at a wavelength λ
be denoted by n1(λ
), a refractive index of said second diffraction grating at the wavelength λ
be denoted by n2(λ
), a refractive index of said L-th diffraction grating at the wavelength λ
be denoted by nL(λ
), and a wavelength within a visible spectrum be denoted by λ
0, the following condition is satisfied for each of three wavelengths within the visible spectrum wherein the three wavelengths have a difference of 50 nm or larger from each other;
wherein for each of said second diffraction grating up through said L-th diffraction grating, ±
represents + if the respective grating thickness varies in the same direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating, and ±
represents −
if the respective grating thickness varies in the opposite direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating.
0 Assignments
0 Petitions
Accused Products
Abstract
In a diffractive optical element, which is formed by laminating at least three layers of diffraction gratings made of at least three kinds of materials which differ in dispersion, at least three design wavelengths are set.
24 Citations
13 Claims
-
1. A diffractive optical element comprising:
-
L diffraction gratings, L being three or more, including a first diffraction grating, a second diffraction grating, and up through an L-th diffraction grating, wherein, letting a grating thickness of said first diffraction grating be denoted by d1, a grating thickness of said second diffraction grating be denoted by d2, a grating thickness of said L-th diffraction grating be denoted by dL, a refractive index of said first diffraction grating at a wavelength λ
be denoted by n1(λ
), a refractive index of said second diffraction grating at the wavelength λ
be denoted by n2(λ
), a refractive index of said L-th diffraction grating at the wavelength λ
be denoted by nL(λ
), and a wavelength within a visible spectrum be denoted by λ
0, the following condition is satisfied for each of three wavelengths within the visible spectrum wherein the three wavelengths have a difference of 50 nm or larger from each other;
wherein for each of said second diffraction grating up through said L-th diffraction grating, ±
represents + if the respective grating thickness varies in the same direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating, and ±
represents −
if the respective grating thickness varies in the opposite direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating.- View Dependent Claims (9, 10, 11, 12, 13)
-
-
2. A diffractive optical element comprising:
-
three diffraction gratings made of three kinds of materials which differ in dispersion, including a first diffraction grating, a second diffraction grating, and a third diffraction grating, wherein, letting a grating thickness of said first diffraction grating be denoted by d1, a grating thickness of said second diffraction grating be denoted by d2, a grating thickness of said third diffraction grating be denoted by d3, a refractive index of said first diffraction grating at a wavelength λ
be denoted by n1(λ
), a refractive index of said second diffraction grating at the wavelength λ
be denoted by n2(λ
), a refractive index of said third diffraction grating at the wavelength λ
be denoted by n3(λ
), a wavelength within a visible spectrum be denoted by λ
0, and the following condition is satisfied for each of three wavelengths within the visible spectrum, wherein the three wavelengths have a difference of 50 nm or larger from each other;
wherein for each of said second diffraction grating and said third diffraction grating, ±
represents + if the respective grating thickness varies in the same direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating, and ±
represents −
if the respective grating thickness varies in the opposite direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating.
-
-
3. A diffractive optical element comprising:
-
at least three layers of diffraction gratings made of at least three kinds of materials which differ in dispersion, wherein said at least three layers of diffraction gratings have respectively a thickness such that diffraction efficiency of a first order shows a peak in each of at least three wavelengths having a difference of 50 nm or larger from each other within a visible spectrum.
-
-
4. A diffractive optical element comprising:
-
at least three layers of diffraction gratings made of at least three kinds of materials which differ in dispersion, wherein said at least three layers of diffraction gratings have respectively a thickness such that a phase amplitude of a first order diffraction is 1 (one) for each of three wavelengths having a difference of 50 nm or larger from each other within a visible spectrum.
-
-
5. A diffractive optical element comprising:
-
L diffraction gratings, L being three or more, including a first diffraction grating, a second diffraction grating, and up through an L-th diffraction grating, wherein, letting a grating thickness of said first diffraction grating be denoted by d1, a grating thickness of said second diffraction grating be denoted by d2, a grating thickness of said L-th diffraction grating be denoted by dL, a refractive index of said first diffraction grating at a wavelength λ
be denoted by n1(λ
), a refractive index of said second diffraction grating at the wavelength λ
be denoted by n2(λ
), a refractive index of said L-th diffraction grating at the wavelength λ
be denoted by nL(λ
), and a wavelength within an operable wavelength spectrum be denoted by λ
0, the following condition is satisfied for each of at least three wavelengths within the operable wavelength spectrum;
wherein for each of said second diffraction grating up through said L-th diffraction grating, ±
represents + if the respective grating thickness varies in the same direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating, and ±
represents −
if the respective grating thickness varies in the opposite direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating.
-
-
6. A diffractive optical element comprising:
-
L diffraction gratings, L being three or more, including a first diffraction grating, a second diffraction grating, and up through an L-th diffraction grating, wherein, letting a grating thickness of said first diffraction grating be denoted by d1, a grating thickness of said second diffraction grating be denoted by d2, a grating thickness of said L-th diffraction grating be denoted by dL, a refractive index of said first diffraction grating at a wavelength λ
be denoted by n1(λ
), a refractive index of said second diffraction grating at the wavelength λ
be denoted by n2(λ
), a refractive index of said L-th diffraction grating at the wavelength λ
be denoted by nL(λ
), and a wavelength within a visible spectrum be denoted by λ
0, the following condition is satisfied for each of at least three wavelengths within the visible spectrum;
wherein for each of said second diffraction grating up through said L-th diffraction grating, ±
represents + if the respective grating thickness varies in the same direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating, and ±
represents −
if the respective grating thickness varies in the opposite direction as the grating thickness of said first diffraction grating on the basis of direction of increase or decrease of the grating thickness of said first diffraction grating.
-
-
7. A diffractive optical element comprising:
-
at least three layers of diffraction gratings made of at least three kinds of materials which differ in dispersion, wherein said at least three layers of diffraction gratings respectively have a thickness such that a phase amplitude of a first order diffraction is 1 (one) for each of at least three wavelengths within a visible spectrum.
-
-
8. A diffractive optical element comprising:
-
at least three layers of diffraction gratings made of at least three kinds of materials which differ in dispersion, wherein said at least three layers of diffraction gratings have respectively a thickness such that diffraction efficiency of a first order shows a peak in each of at least three wavelengths within a visible spectrum.
-
Specification