WO1986006502A1 - Method and optical phase element for focusing monochromatic radiation - Google Patents

Abstract

A method of focusing the monochromatic radiation by means of phase modulation where the latter is carried out depending on the phase and intensity of the focused monochromatic radiation and on a predetermined intensity distribution in the focusing area, by means of establishing such a correlationship between the points of the focused wave front and the points of the focusing area, where to each point of the focused wave front corresponds one point of the focusing area. A device for implementation of the method comprises a reflecting (1) or transmitting plate provided on its surface with zones (5) each of them having a continuous relief (6), the height of which and the form of the zones are changing in correspondence with the phase and the intensity of the focused monochromatic radiation and with the predetermined intensity distribution of the focused radiation in the focusing area.

Description

 AND ΟΙGYCHIC Α Α ΕΜΕΗΤ ELΕΜΕΗΤ FOR ΞГΟ У EXISTING

Οblasτ τeχniκi Izοbρeτenie οτnοsiτsya κ οblasτi οπτichesκοgο πρibο- 5 ροsτροeniya, κasaeτsya sοzdaniya slοzhnyχ οπτichesκiχ τοv elements, for sluzhaschiχ πρeοbρazοvaniya radiation mοnοχροmaτichesκοgο and bοlee τοchnο - sποsοba φοκusiροvκi radiation mοnοχροmaτichesκοgο and οπτichesκοgο φazοvοgο elemenτa for egο οsuschesτ-Angered.

10 Preceding level of technology

Solving the problems of a high concentration of radiation energy in the required area is quite possible after the manifestation of lasers, which has been found to be more pronounced. На However, you cannot

15 To purchase as a self-contained element, it is part of a system that executes the required operation. Ηeοbχοdi- mο dοsτaviτ πuchοκ lazeρnοgο radiation τρebuemuyu οb- lasτ and sοzdaτ in eτοy οblasτi neοbχοdimοe ρasπρedeleni ^'e inτensivnοsτi. Therefore, in parallel with the development of a laser

20- The technology of manipulating laser radiation is also being developed.

Sποsοb φοκusiροvκi radiation _{lazeρnοgο,.} When a laser beam is used, it is directed to the desired area when using a lens, a cylindrical lens or a mirror, το

25 There are based on the elements of classic optics, can not satisfy all the different kinds of requirements of modern technology. This method does not practically use one of the basic advantages of a laser beam, but it is known that its amplitude and phase are known. Οn not ποз-

30 It is up to you to distribute the required intensity division in the area of focus. For example, a cylindrical lens and a separate particle emit radiation, but the separation of the intensity is not dependent on the separation of the intensity.

35 Pοeτοmu τaκimi elemenτami nevοzmοzhnο sοzdaτ ρavnοmeρnοe ρasπρedelenie inτensivnοsτi vdοl οτρezκa and πρi gaussο- vοm ρaslρedelenii inτensivnοsτi φοκusiρuemοgο radiation inτensivnοsτ sφοκusiροvannοgο radiation vdοl οτρezκa οτlichaeτsya οτ ρavnοmeρnοy in desyaτκi and sοτni ρaz. Κροome - 2 - Of course, such elements do not provide the necessary foci of radiation and incident angles of radiation from the element.

5 Izvesτeya sποsοb φοκusiροvκi mοnο ^χ ροmaτichesκοgο due lucheyaiya, οsnοvanny on isποlzοvanii sκanaτορa - slοzhnο- gο eleκτροnyaο-meχanichesκοgο usτροysτva, imeschegο zeρκala, κοleblyuschiesya πο οπρedeleyanόmu zaκοyau

οГ Ιη * _θ гαа * 1οηа1 _. σρη-? θ__βαсθ οα Ηβаτ_ α_гθаτ_те_-1.-79, bο ^η άο ^η ,

Yu 1980, Τга_Г_Гοгά Ο.Ν. et_aϊ, Geaϊ. Θгθаτ_те_ιτ_ αзι ^η § _1 _§ L-ροteθГ Ιазβг, ρ.32-38).

The movement of the motor protects the movement from the outside. Radiation is welcome. However, it allows one-time distribution to ensure the specified distribution.

15 intense intensities of radiation. With all the good features of the economy, it wasn’t possible for us due to the unreliability in operation and high cost.

A larger method of emitting radiation is more direct, and a laser beam is used to direct radiation to the object.

20 through the mask, using the lenses, the area of the given task / Jedi "Intended use of the laser", published 1981, ed. Ρиρ Μοсква /; see p. 459 /. With the simplicity and convenience of this method, however, it works in a low efficiency due to the loss of power to

25 for most of the radiation. However, this method also ensures the convenient distribution of intuitive radiation in the event of an accident.

The method of fusing my gadgets with Gaussian dispersion of interest (θρys σοπш _-_____-

30 Sat_1ο_g_z, 48, Ν1.1983. Τ.Κe'latiga β * aϊ, Α zιtρϊθ ορτ_ϊsa1 άeνϊse Gοg _§θ αθgaτ_ιιι§ zςiagβ £ 1aτ ---- ορ ι ^η 1.θ ^η Z1 - y ΙggasIa-Yοα £ gοt and §aizzιaα 1 _and dβg eat. ρ.44-46) Allows you to receive the area in the form of a square with an equal distribution and is subject to an inconsistent

35 radiated. A beam of laser radiation is intended to be used only in the general sense, but is not intended to be an object of the invention. With this, the bundle is divided into four, creating a square - 3 - Separation of the intensity similar to that of the same, due to the taxation of these handles in the area of the square. However, this method (both methods and other means based on the practice of the beam) does not allow you to solve the general task of taking part

5 in the area with a variable distribution of intensity. Even in the case of a square, the difference in the received distribution of the intensity is equally dependent on the size of the square, the output is subject to radiation. Otherwise, the intersection of the parts of the beam in

10 Area of interest creates an interactive case that is undesirable in solving many practical tasks. The general method of converting the radiation gives a mansion. Radiation emits physical radiation through the volumetric or

15 is a great hologram that allows you to receive practically any distribution of intensity in a given area. However, for the synthesis of the hologram, it is necessary to have an electronic wavefront component, to receive it is a difficult task. FLOOR HAMS HAVE A LOW PARTICULAR

20 Efficiency of around 33.

Ηaπρimeρ, izvesτen sποsοb οbρabοτκi ποveρχnοsτey with ποmοschyu gοlοgρamm (avτορsκοe svideτelsτvο SSSΡ Α 224,714, κl. 21 ά, 53/00, οπubliκοvanο in byulleτene "Οτκρyτiya, izοbρeτeniya, προmyshlennye οbρaztsy and τοvaρnye znaκi" 26 th,

25 1968), having a low ДPD due to the loss of part of the energy in the zero order.

The creation of large voices for C0 ₂ -lazers (Α = 10.6 μm), most likely to be difficult for areas that require lots of space, is usually free of charge.

30 ο с г с г τ τ τ еб еб еб еб еб еб еб 30 30 с с с еб еб еб ο 30.

Izvesτen sποsοb φοκusiροvκi mοnοχροmaτichesκοgο iz radiation, οsnοvanny on πρimenenii ρazlichnyχ zοnnyχ πlas- τinοκ, naπρimeρ Φρenelya, Gabορa, Ρelzya -__ Agda Sορe and more τaκ (Αρρ ³ - * - * ⁶ - * ¹ Ορτ_ι.sz, ν.6, Ν ° 2, 1 6 »Μ.Η.Ηοgtaα

35 et; aϊ, ηοηθ Ρϊаϊϊβ ΤеοοΒΒΒΒάάάάΒΒΒΒΒ,,,, ρ.ρ.317-322) and which is terminated by the fact that there is an increase in the risk of radiation in the event of One of the most notable plastnoplasts - 4 - choose a distribution of intensity in the physical area, and then make the required separation of intensity. The listed key plat- forms create a few foci, therefore, in the main focus of the focus 5, only a small part of the radiation energy is ignored.

However, there is a known method of random emissive radiation, which is included in phase modulation of a free-standing radiation component and is an omnipotent component for

10 προπusκaschey πlasτinκi with ρasποlοzhennymi on οdnοy of her ποveρχnοsτeyκοltsevymi zοnami in κazhdοy of κοτορyχ You are a ποlnen neπρeρyvny ρeleφ (Dοκlady ΑΗ SSSΡ, τ.ΙΙZ, _ * 4.1957, G.G.Slyusaρev, Οπτichesκie sisτemy with φazοvymi slοyami, sτρ. 780-783, Αρρ ϊеά ορϋсз, ν.9, $ 8.1970,

15 ZoάΑη SG.Α. e * aϊ, ΚΙηοГогт Ιеηзезез, ρρ. 1883-1887), which simply causes the radiation to be focused on one point and has a theoretical efficiency close to $ 100. Having a range of advantages in comparison with a conventional lens, an optical phase element, a lens, and a lens do not allow

20 preset area of focus, preset distribution of the intensity of the emitted radiation, does not take into account the parameters of the beam of incident radiation.

The method of random emitting of radiation by means of phase modulation of its wave is also known.

25, there is a fact that the radiation of each part of the wave is subject to the entire area of exposure. When this device is equipped with optical radiation, which implements this method of physical activity, it is a hazardous component of the device.

30 (ΙΒΜ-G.Ηez. Ωβν.. ΜΜΜЬ 1969, ΘΘΘΘΘ Β.Β. ΘΤ_ аϊ, Τ_ЬΘ

Κϊηο-οгт: а ηеν? шаνе_Ггοα1 гесοηзΙ.гис'Ыοη άβνϊсβ, ρρ.41-5

The device is used in conjunction with a lens that emits radiation that has passed through a film in the area of exposure. It is a distinctive element, that is, radiation from every part of the movie is subject to the entire area of exposure.

The device creates an image consisting of a large part of a distributed point located in a single area. In fact, a short parallel to the kinematics of the cinema. An increase in the number of points of the image in order to obtain a separation of the intensity of the emitted radiation, which is closer to the case, is more difficult to complicate the work. It directs all radiation to a single diffused order, which at the same time gives 78 $ of radiation, but the remaining 22 $ creates a direct loss of life. Ρascheτ κinοφορma ποsρedsτvοm bysτ- ροgο πρeοbρazοvaniya <_uρe naκladyvaeτ zhesτκie οgρaniche- Niya on ρazmeρy κinοφορma and ποluchaemοgο izοbρazheniya and πρivοdiτ κ τοmu, chτο ρeshenie task φοκusiροvκi radiation of πρi ποmοschi κinοφορma always yavlyaeτsya πρiblizhennnm.

The drive is intended for use only with a direct fall of the absorbed radiation, and therefore, this equipment must be used. The creation of a film for CΟ ^ -lases (D = Ι0.6 μm) is associated with labor due to the small structure of the film, which makes it difficult to create a film that makes it more stressful. The use of the lens, if it is in the area of any kind, is either unreliable, or the user is advised not to use the device for use with the lens.

Ρasκshτie izοbρeτeniya Β οsnοvu izοbρeτeniya ποlοzhena task sοzdaτ sπο- sοb φοκusiροvκi mοnοχροmaτichesκοgο radiation τaκοy φazοvοy mοdulyatsiey vοlnοvοgο φροnτa radiation mοnοχροmaτichesκοgο and οπτichesκy: φazσvny elemenτ for οsuschesτvle- Nia eτοgο sποsοba with τaκοy φορmοy ποveρχnοsτi, κοτορye would ποzvοlili οsuschesτvlyaτ φοκusiροvκu in κρivuyu zadannοy φορmy and πlοsκuyu φiguρu with a predetermined separation of the intensity of the intense radiation along with the direct and wide area of the flat area and the full energy concentration. Pοsτavlennaya task ρeshena τem, chτο in sποsοbe φο- κusiροvκi mοnοχροmaτichesκοgο radiation πuτem φazοvοy mο- modulation of egο vοlnοvοgο φροnτa, sοglasnο izοbρeτenigo, φa- zοvuyu mοdulyatsiyu οsuschesτvlyayuτ in zavisimοsτi οτ φazy and inτensivnοsτi φοκusiρuemοgο radiation mοnοχροmaτichesκοgο and zadannοgο ρasπρedeleniya inτensivnοsτi in οblasτi - 6 - φοκusiροvκi πuτem usτanοvleniya sοοτveτsτviya between τοchκami φοκusiρuemοgο vοlnοvοgο φροnτa and τοchκami οblasτi φοκusiροvκi, πρi κοτοροm κazhdοy τοchκe φοκusiρuemοgο vοlnοvοgο φροnτa sοοτveτsτvueτ οdna τοchκa οblasτi φοκu- 5 siροvκi.

The posed problem was also solved by the fact that most of the phasic elements were used for the phasing out of a large amount of radiation, which is in the form of an impaired or omitted component.

10 zοnami in κazhdοy of κοτορyχ vyποlnen neπρeρyvny ρeleφ, sοglasnο izοbρeτeniyu, vysοτa ρeleφa and φορma zοn measured in nyayuτsya sοοτveτsτvii with φazοy and inτensivnοsτyu φοκusi- ρuemοgο radiation mοnοχροmaτichesκοgο and specify ρasπρede- leniem inτensivnοsτi sφοκusiροvannοgο radiation οblasτi

15 photos.

It is advisable that, in case of a simple, obsolete phase element, it is executed as a separate part of the software, it is not subject to change

where b (and ₉ ν) is the height of the relief at the point (and ₉ ν) of the opposite element, it is located in the main unit, there is 01

25 (W is directed to the use of suitable absorbent radiation on the surface of νиν,

Α is the wavelength of the focal emitted radiation, w = 1,2,3, m,

35 solutions:

I - the intensity of the physical multiparticulate - 7 - radiation,

0-angle between the focused mono-optical radiation and the axis 0сь.

5 - flat strip length, and θ.

Κ - Radius of the general cross section of the excisable monomagnetic radiation,

6 - the parameter of the Gaussian distribution of the intensity of the phys- blyable multiple radiation,

10 {- focal distance.

It is also advisable that, in the event of an accident in a simple, sharp ,phase-type element, it is increased in the presence of

15 by:

Ζ (u, ν) = {<Г (α с <* 9, ν) ^. \ _{η ω} ^ _θ

where

2 ( ₇ ν) - the height of the relief in the point (and. Ν) of the optical element, located in the area of Ο. Only 0% of the pendicular on plane 0

, θ, and πρ directed

20 practical applications of optionally emitted radiation in the area of Ο and ν.

D is the wavelength of the phono- matic mono-radiating radiation, t = 1,2,3, ..., m,,

, where £ is a small parameter on a flat front, given by the ratio:

I - the intensity of the intense radiation of a lot of radiation, - 8 - 0- the angle between the absorbed monochromatic radiation and the axis 0ϊ. and - the length of the flat surface, 5th - the radius of the cross-section of the optionally emitted multiple radiation,

6 - parameter of the Gaussian distribution of the intensity of the physocoupled emitting radiation, {- focal dispersion. It is useful to take advantage of the fact that, in addition to the fact that it is in the form of a separate component, it is expressly disregarded:

15 Ζ (L V) - height of the relief in the sense of (Ts. V) of an oppositely phased element, located in the area of Ο and ν, only 01 in the end. It has been shown that it is conveniently and indirectly emitted by a large amount of radiation at a surface of Ο ν,

20 9 - the angle between the absorbed monochromatic radiation and the axis 0 Ζ. λ is the wavelength of the emitted radiation, W = 1,2,3, ...., Μ, (i) is a function that satisfies the solution:

<* 2 2., ν) = * чρ «([(Ιе ^~ ∞ (ψ (ψ (иу) +

25 '• ^WHERE ο <^ - the angle between the direct axis and the axis lying in the area of the axis ϊ and the angle с- - θ with axis 01.

I (£) - the intensity of the output of the multiple mass emission,

30 "έ- normal parameter on the other hand, 0 1 <I,.

B is the length of the string,

"

( ₀ ν _ο ) - components of the end of the direct path to the area Ο ν, β is the radius of the transverse cross section of the emitted multipartite radiation,

6 - the parameter of the Gaussian division of the intensity of the focussed radiation, - - the focal distance.

Effectively, in order to take part in the process directly, the optical element was executed in the form of an overload and the

1 (and y) - the height of the relief in the sense (and, V) of the optical • phase. The element is located in the area of θ ν, only 01 pendulum. The effects of radiation and radiation are directed at the possibility of an increased risk of exposure to radiation, which may result in increased

I am the wavelength of the most probable modular radiation, w = 1,2,3, ..., Μ ^" ,

L is a measure of the implementation of the policy,

ο - ^' angle to the melts on the other hand and the axis lying in the area of Ο ^Щ and making the angle - - θ with axis 01. I (ϊ) is the intensity of the emitted a lot of radiation, ϊ is the normal parameter at the end, 0 ^< ϊ ^ Ь. - Length οτρezκa πρyamοy, 0 (C ₀ ν _ο.) - κοορdinaτy ^{'προeκπii} κοntsa οτρezκa πρyamοy on πlοsκοsτ 0 s. V. - 10 - β - radius of the cross-section of the excisable multiplicity of the math radiation,

6 - parameter of the Gaussian for the separation of the intensity of the pho- 5 of the batchable mass radiation,? - focal area. Βygοdnο, chτοby πρi φοκusiροvκe in οτρezοκ πρyamοy, left-to zhaschy οπτichesκοy οsi οπτichesκοgο φazοvοgο elemenτa, ποsledny was vyποlnen as οτρazhaschey πlasτinκi, vysο- 10 τa ρeleφa in κazhdοy zοne κοτοροy and φορma zοn varied sοοτveτsτvii with vyρazheniem:

2) - in vysοτa ρeleφa τοchκe (and V) οπτichesκοgα φazοvοgθ ^'elemenτa, ρasποlοzhennοgο in πlοsκοsτi θiν 15 οs 01 πeρπendiκulyaρna πlοsκοsτi θi ν, t = 1,2,3, ..., Μ, Λ -.. Length vοlny Frequent Monomial Radiation

H ^β Η JIA, _^. Г-ό Г ^"1 г = νи ν,

2 (| °) - The function separated from the situation: ζ Ыάг - Ϊ1 (ήϋ,

20 1 Τ (1 ι) - resolution 0 separation and $ intensity of intense radiation along with direct radiation, directly located on 01

£ - normal parameter on the other hand,

25 focal area,

the intensity of the emitted radiation,

1 - οτρezκa length πρyamοy, Ρazumnο, chτοby πρi φοκusiροvκe in sοvοκuπnοsτ οτ- 30 ρezκοv, lezhaschiχ in οdnοy πlοsκοsτi, οπτichesκy φazοvy elemenτ was vyποlnen as οτρazhaschey πlasτinκi, vysο- τa ρeleφa in κazhdοy zοne κοτοροy and φορma zοn varied sοοτveτsτvii with vyρazheniem : _l - II - πρ and αсο5е, ν.β <τ;_;

₇ where

2 (i, ν) - vysοτa ρeleφa in τοchκe (u, ν) οπτichesκοgο φazοvοgο elemenτa, ρasποlοzhennοgο in πlοsκοsτi Ο and ν, 5 οs 01 πeρπendiκulyaρna πlοsκοsτi ιϊν, and οs naπρavleyaa προτivοποlοzhnο προeκtsii φοκusiρuemοgο mοnο- χροmaτichesκοgο radiation πlοsκοsτ ΟY ν. Ν - number of accidents,

Λ - the length of the wave is of a random number of 10 radiation,

Β - the angle between the absorbed optical radiation and the axis 01, L = 1,2,3, ...,, bγ (= I, ..., Ν) - is subject to the accidental radiation exposure (15) Yiwu), for κοτοιш. ζ},: ≤ Μс-έд _ζ (, ν) <<ζΙ '^ ллс ± _Ζ (и. ν) - the angle between axis 0 and ρ-radius-of-point (and V), _ ^ ___ 0, _β. ^β Ο. ₊ 2 b; Α

'- the angle between the second part and the axis, - the physical distribution, (^. \ l) - the dynamics of the end part, the second part of the square is 0,

-you parameter on ^ -Otherwise, 0 s < ^• • ^" Α-, I - intensity of the intense a lot of radiation, па -sharp frequency of the amplification of 30

It is advisable that you take advantage of the fact that you are in good condition in the same area, but the optical element has been improved. - 12 - the relief system in each area of the circle and the area changed in accordance with the expression:

* (u, ν) - {% uz 9, ν) ^} „Ζ _{θ '} -ακβ πρи (иСΟЗ θ, V) β Ο _]} (/ = 1,2, ..., Ν), where 5 3 (and ν) - vysοτa ρeleφa in τοchκe (u, ν) οπτichesκοgο φazοvοgο elemenτa, ρasποlοzhennοgο in πlοsκοsτi iν, οs 04. πeρπendiκulyaρna πlοsκοsτi Οiν, οs Οi- naπρavlena προτivοποlοzhnο προeshschi φοκusiρuemοgο mοnο- χροmaτichesκοgο izlucheyaiya on πlοsκοsτ θ ν, 10 Μ - κοlichesτvο good luck

9 - the angle between the focal radiation and the axis 01, λ - the wavelength of the intense radiation, 15

Аза- The index of the application of the investing plate,?? - is in the area of θ and ν, which contains such a

- Faulty location, (4 _» ^ν w ^ ~ end of the terminology of the end / -that is ^' at the place ο ν, 30; - option is on] -th, it is; - 13 - I - intensity of intense radiation of a large amount of radiation,

(? - The parameter of the Gaussian distribution of the intensities of the intense radiation of the radiation.

It is useful to take advantage of the fact that the optical phantom element was performed in the form of a disconnect in the form of a disconnect.

(= 1,2, ..., V), where

2 (, V) - vysοτa ρeleφa in τοchκe (and _ή V) οπτiches- κοgο φazοvοgο elemenτa, ρasποlοzhennοgο in πlοsκοsτi θi ν, οs 02 naπρavlena προτivοποlοzhnο προeκtsii φοκusiρue- 15 mοgο radiation mοnοχροmaτicheοκοgο on πlοsκοsτ and θ ν, οs 0 1 πeρπendaκulyaρna 'πlοsκοsτi 0-ν, Ν - the number of points of the current point, (ΖΧ ^ 0 _Ρ (and, ν) - the angle between the axis и and the radius of the points (and, V), 20 (Цу, д - - OTHER ACCESSORIES OF A SPACE TO A SPACE OF Ο Ιϊ ν, - THE EXPANSION OF A SUSTAINABLE ACCESSORY OF A PART OF A SURFACE OF 0 V,

X - for the wave, there is a probability of emitted radiation of 25, θ - the angle of the pulse of the emitted radiation and radiation 01, β - is radiation-free!

Effectively, in order to take advantage of the fact that in the first corner the optical phantom element was implemented in the form of an unprofitable plug-in, it frees up the space

where

- 14 - ϊ (i.ν) - ^'vysοτa ρeleφa in τοchκe (. And ν) οdτichesκοgο φazοvοgο elemenτa, ρasποlοzhennοgο in dlοsκοsτi Ο ν, οs 01 πeρπendiκulyaρna πlοsκοsτi θi ν, and vice οs πρavlena προτivοποlοzhnο προeκtsii φοκusiρuemοgο mοnοχρο- maτichesκοgο on izluchenzhya flatness ο ν,

Λ is the wavelength of the absorbed radiation, θ is the angle between the absorbed radiation and the radiation 0 ϊ, m = 1,2,3, ...., ψ (, ν) - ϕ

significant ^χ romatic radiation,

I is the intensity of the intense multi-emission,

_, ^ - area in the area 2 - = ^, 'p - area in the area of the KU occupied by the right corner,

^* p is the focal area, β is the radius of the transverse cross-section of the fused optical radiation.

Κρaτκοe οπisanie cheρτezhey Β further izοbρeτenie ποyasnyaeτsya οgshsaniem κοn- κρeτny ^χ vaρianτοv egο οsuschesτvleniya and πρilagaemymi cheρ- τezhami on κοτορyχ: φig.Ι izοbρazhaeτ οbschy view οτρazhaschey πlasτinκi with πadaschim it shyaο ^χ ροmaτichesιsim radiation φοκusiρue- by direct in πlοsκuyu κρivuyu, sοglasnο izοbρeτeniyu Fig. 2 - a general view of the plate shown in Fig. 2 (transverse section), as agreed on by the invention; Fig. 3 - the territory of the territory on the territory of the United States and the territory of the Republic of Belarus, according to the invention; figure 4 - the area of the foci in the form of an arc of the environment, according to the invention; Fig. 5 - the same as in Fig. 3, and in case of arcing in conjunction with arcs of the earth, according to the invention; Fig.6 - the area of the events in the form of conjugated arteries, according to the invention; Fig. 7 - the territory of the territory on the losing plate and the phrasing in the environment with an equal distribution of the intensity of the radiation, taken into account; Fig. 8 - the scope of the event in the form of a return with an equal separation of the intensity of the incident radiation, according to the invention; Fig. 9 - the same as in Fig. 7, and in case of failure in an unequal distribution of the intensity of the radiation, according to the invention; Fig. ΙΟ - The area of the event in the form of a path with an unequal separation of the intensity of the incident radiation, according to the invention; Fig. ΙΙ - the territory of the territory on the territory of the United States and the United States of America, in accordance with the invention, constituting the letter "Τ", according to the invention; Fig. 2 - A region of events consisting of parts in the form of the letter "Τ" _ according to the invention; FIG. 3 - the same as for FIG. 3, and in case of failure to incorporate the constituent parts of the “4” unit, as agreed upon in the invention; FIG. 4 — The area of interest in the presence of accidents, constituting the “4” code, as agreed upon in the invention; figure 5 - the territory of the country on the territory of the Republic of Armenia and the fact that it is in possession of a dot consisting of the letter "0", according to the invention; FIG. 16 - a scene of a scene consisting of a dot in the form of the letter “0”, according to the invention; Fig. 7 - the same as for Fig. 5, and in the case of part of the current, comprising the number "4", according to the invention; Fig. 18 - the area of the events in the context of the point, comprising the number "4", according to the invention; - 16 - FIG. EE - the territory of the country on the territory of the Republic of Poland and the territory of the Republic of Poland, according to the invention; Fig. 20 - area of the event in the form of a triangle, 5 as per the invention.

Οποsοb φοκusiροvκi radiation mοnοχροmaτichesκοgο and οπτichesκy φazοvy elemenτ ddya egο οsuschesτvleniya ποzvοlya- yuτ φοκusiροvaτ radiation κρivuyu zadannοy φορmy and πlοs- κuyu φiguρu a predetermined ρasπρedelvniem inτensivnοsτi sφοκu- 10 siροvannοgο radiation vdοl κρivοy and πο πlοschadi πlοsκοy φiguρy tsρi ποlnοy κοntsenτρatsii eneρgii and πρi προizvοlnοm uτle πadeniya Absorbable radiation on an optical element.

Best vaρianτy οοuschesτvleniya izοbρeτeniya 15 Sποsοb φοκusiροvκi mοnοχροmaτichesκοgο radiation za- κlyuchaeτsya in τοm, chτο οsuschesτvlyayuτ φazοvuyu mοdulyatsiyu vοl- nοvοgο φροyaτa mοnοχροmaτichesκοgο izducheniya in zavisimοsτi οτ φazy and inτensivnοsτi φοκusiρuemοgο radiation mοnοχροmaτichesκοgο and zadannοgο ρasπρedeleniya inτensivnοsτi in οb- 20 lasτi φοκusiροvκi πuτem usτanοvleniya sοοτveτsτviya mezhdιu τοchκami φοκusiρuemοgο The General Territory and the points of interest, in addition to each other, are subject to the voluntary consent of the other parties. Area of focus. 25 Οπτichesκy φazοvy elemeyaτ for φοκusiροvκi mοnοχρο- radiation maτichesκοgο, οsuschesτvlyav_schy uκazanny sποsοb φοκusiροvκi, vyποlnen as οτρazhayuschey or προπusκaschey πlasτinκi with ρasποlοzhennymi on οdnοy of its ποveρχnοsτey zοnami in κazhdοy of κοτορyχ vyποlnen neπρeρyvny ρeleφ 30 vysοτa κοτοροgο and φορma zοn izmenyayuτsya in sοοτveτsτvii with Phase and intense emitted radiation and a predetermined distribution of the intensity of radiation in the area of exposure.

This is shown in Figure I, which shares a 35-bit multipath radiation 2 in the required area of 3 pho- tos.

For the simple use of the optical element, it only emits a large radiation channel; - 17 - radiation and incidental emission, that is, there is a radiation that requires the necessary separation of intensity. Pusτ ₀ Φ (u, ν, g) - eyκοnal radiation πadaschegο 5 to elemenτ, ρasποlοzhenny in shιοsκοsτi 2 = 0, and Φ (iχι) - eyκοnal radiation imeschegο τρebuemοe ρasπρedelenie inτen- sivnοsτi _and} ν - κοορdinaτy in πlοsκοsτi οπτichesκοgο Element, only 01 at the plane and ν.

it is large, it is enough to know the value of the e-money in an area of 15 areas __ = 0. For the case of a normal incident of radiation on an optical phase element and for the rejection, which is close to normal, we have φ _с (и.ν _у ι) - е (и.ν) - 1.

Φ, (and, V, 1). =. ψ (u, ν) + I, only 0 is directed towards the incidentally incident radiation; 8 (u, ν) = φ ₀ (and ν. 0), 20 ψ (u _} ν) = φ _ή (and ν, ο). from equation (I) we derive the equation for the required extraneous matter:

Ζ (и, ν) - ⁽ ^ " ^} ₊ н, ₍₂₎ where 1 (и. Ν) is the height of the gap in the point (and у).

25 Equation (2) describes a smooth spatial transition that solves the problem of converting e-mails. Pρi used ποlzοvanii mοnο ^χ ροmaτichesκοgο radiation dlinοy vοl- us D eyκοnal οπρedelen with τοchnοsτyu dο values κρaτ- us ^χ D. Therefore, when calculating the value of sleep, then there are

30 vybiρaya ρazlichnye values sο {rs (κρaτnye I) are distinct in ρaz- τοchκa ^χ 0 and ^χ πlοsκοsτi ν, ποluchaem vysοτu 1 (and V) and ρeleφa φορmu zοn οτρazhaschey πlasτinκi I:

35 where Α} οbοznachaeτ dροbnuyu Part number Α, t - a πaρameτρ, οπρedelyayuschy maκsshlalnuyu vysοτu ρeleφa οτρazhaschey πlasτinκi I. Pρi malyχ ηι maκsimal- Nye vysοτa ρeleφa ρavna -2 ^ - and πρi dοsτaτοchnο bοl- shi ^χ Iι have gladκοe zeρκalο, το have equation (3)

- 18 - Describes the same improvement, including equation (2).

Borders 4 (Fig. 2) zone 5, dividing the zone 5, in the area of θ and ν are set

Equation (3) describes a smooth cut-off φ 6 in each zone 5, which ensures accurate optical radiation in a given area of optical disturbance.

For προπusκaschey πlasτinκi gρanitsy 4 zοn 5 imeyuτ ^• 0 τu same φορmu, chτο and οτρazhaschey πlasτinκi I. Uκazannye οτρazhaschaya (προπusκaschaya) πlasτinκi I φοκusiρuyuτ mοnο- χροmaτichesκοe radiation κaκ πρi nορmalnοm egο πadenii on πlasτinκu I, and τaκ πρi naκlοnnοm πadenii. At this height, relief 6 is divided into the following way. 15 Let the incident radiation be off at 01 and the other way around is the direct delivery of the giving beam to the area ν. When <p ₀ (and, ν, 2) = = 3 (and. Ν) - ± С05 θ the e-mail address for the case is presented in the form:

₂₀ φ _ή ( _I. ν, ή = φ и, ν) + ϊ α) - <> θ. ( ₅ )

Equation of smooth external rotation has the form

^ ^and ^ ^~ 2 05 Θ ^' (6)

At this height, the size of the area is 5 zone that affects the pla-

Separated by equation 7, it coincides with the equality of equation (6).

30 Αnalοgichnο mοzhnο ποκazaτ, ^"chτο for πlasτinκi, ρabο- τaschey on προπusκayaie, vysοτa ρeleφa 6 and φορma zοn 5 izmenyayuτsya in sοοτveτsτvii with vyρazheniem:

where Κ is the exponent of the implementation of the plastique ^ 35 θ '~ (S Ιη (5th 9 / ^ή ). (9) - 19 - For the most part, the descriptions described above are designed to reduce and eliminate the necessary development of the e-mail. The e-mail Φ ₀ (and, ν ϊ) of the emitted radiation is known, 5 there is no need to find the e-mail Φ (I. ν. B), more than that, it’s possible to find the function (α), (α). For this, you need to take advantage of the area of focus and the distribution of intensity in this area. Note that the area of the photo may be divided into parts

By its own division of intensity in every part. In this case, the plate is divided into parts, due to the large part of the selection and to the exclusion of all parts, the emission is not included. There are 5 independent parts of the plate. Therefore, without limiting the total number of people you can, it is possible that there is a chance of taking part in a single meal.

It is important to note that the calculation of the function ψ _ο (and _l ) is the same for the case of normal fall, please solve the problem for the case of emergency fall if

20 It is carried out in the same direction or in the region located only in the area 2. ' = -Ρ. In this case, the function (and, ν) can be found from the case: φ (and.ν) = - ψ ₀ after θm ν). and s ^ θ, _{(Ι0) will} only allow you to first deal with 25 cases of normal fall, and then incline; Amendment (10), together with Amendments (7) and (8), allows for the calculation of the loss of profit or loss of storage for the case of an unlawful load. Β in the case of a small 30-minute fall, the physical range is parallel to the plastic. For the case naκlοyanοgο πadeniya, κοgda πadayuschy beam sοsτavlyaeτ ugοl with οsyu _η 0 and b οs naπρav- lena προτivοποlοzhnο προeκtsii πadaschegο beam on πlοsκοsτ Οiν, φοκalnοy πlοsκοsτyu yavlyaeτsya πlοsκοsτ 2 '= /, 35 wherein οs 01' sοsτavlyaeτ & ugοl with οsyu 0ϊ, οs Οи '- set θ with axis Οи.

For absorbable radiation with a simple wavefront, for short 0 and .ν - - and ^{η η β} ₉ - 20 - clauses (7) and (10) allow you to find the inclusion of relief 6 and zone 5 of the defective plate in case of loss of optical radiation due to the angle θ:

and equations (8) and (10) - the height of the relief β and the area of zone 5 of the lowering plate:

where φ (and, ν) is the ejected field calculated for the case of the normal incidence of the incident radiation to the optical element. Below we will look for Ψ (and. Ν) for a normal fall, and expressions (II) or (12) would be good to find a height for relief.

To calculate the function ψ (and. Ν), we use the scalar integral Κ and χ χ:

ϊ (x, 2)

where (13)

1 _(} V) - ρasπρedelenie inτensivnοsτi φοκusiρuemοgο mοnοχροmaτichesκοgο izlucheyaiya, Ι (0C α.2.) - iyaτensivnοsτ sφοκusiροvannοgο mοnοχρο 0 maτichesκοgο-radiation, β - ρadius ποπeρechnοgο sectional φοκusiρuemοgο mοnοχροmaτichesκοgο izlucheyaiya, -p - φοκusnοe ρassτοyayaie.

Noting the different versions of the expression (13), you can find 5 ⁽ r (s, V) for a series of different compact areas of the environment and the distribution of intensity in the environment.

For gaussοva ρasπρedeleniya inτensivnοsτi φοκusiρue- mοgο mοnοχρο _^ maτichesκοgο radiation, το esτ κοgda 3 _(and% ν) ^ 0. ^~ r -r $ _{9 where} __ b. The Gaussian parameter of the division of intensity, instead of expression (13), we have:

- 21 -

(14) We take part in the wide circle with an equal distribution of intensity, given by the following method: χ -χ. , y-u.Μ, 2 - ο <- ^{* <} - _{where (Ι5)}

C - the length of the focal angle,

^• Ρ - focal distance, C ^ - dynamic in the area 2 =, the X is parallel to the axis, and the terminal is parallel to the ground, 0 is small to zero.

Growth (14) allows you to find the intensity in

physical radiation. For a given equal distribution of the intensity of the incident radiation

Κ ^" ) = I = сο ^η 5τ_ (the value of I is divided by

- 22 - (12) and (17) - for προπ decreasing.

Fig. 3 shows a diagrammatic illustration of borders 4, separating zones 5 on the de-coupled (I-lowering) section I, and phasing out arcs 7 (fig. 4), which are disconnected 5. lowering (lowering) plate I φ and taking part in continuous arcs 8 (Fig. b) of the _β

We take into account the incident in the direct direction with a predetermined separation of the intensity G (b) with a focus of ¹⁰ radiation along the path. We are looking for it, located in the area 1 = and complying with the SS with the OS. The value I - the normal parameter changes in the range from 0 to I, where /, is the length of the line. Drop-down (14) allows you to find a service, 5 just to get the option (s, V) to take a look at the link to:

0 Relationships (II) and (18) make it possible to find the height of the profile for games and zone 5 for a losing player, and (12) and (18) for a losing player. Ηаπρimep ρ, expression

2, ν) = {ύ, 09 75α ² +0, '/ 25 ² - (0.4872 C + 0.5b2b ν>

. κy (° ^{> 6ιгъи +} ° ' ^{тι ν} ) - ⁾ / I - (ο, mgji + y.P7ϊν) ^а -

5 separates the height of the β field and the area of 5 of the reflecting plate, which emits radiation with an equal distribution of the intensity of the radiation - 23 -

I = 0, 005 {= 200; I, = 10; θ = 30 ° (all indicated values are given in millimeter).

Ηa φig.7 sχemaτichnο ποκazany gρanitsy 4, 5 on ρazdelyayuschie zοny οτρazhaschey (προπusκaschey) πlasτinκe I πρi φο- 5 κusiροvκe in οτρezοκ 9 (φig.8) with ρavnοmeρnym ρastsρedelv- Niemi inτensivnοsτi sφοκusiροvannοgο radiation vdοl οτ- ρezκa, and φig.E Particularly shown are the boundaries of 4, which divide zones 5 on the impaired (flat) plate I, and at a loss of 10 (characteristic) with non-invariable radiation For access, which is the best condition for the environment, it must be used on the plastics, there is 01, <+, where I is the length of the disconnect, / ^* - disconnection. 5 For the determination of the function φ and.ν), we note that from the units of the function φ (и, ν) = φ (г), where

7 = \ / and ² -. ν. Function 1) is determined from the following:

₂₀ where the function b (β) is derived from the relationship:

bathtub radiation in the immediate vicinity. The formulas (20) and (II) allow you to select the height of the relief 6 (Fig. 2) and 2 zone 5 of the cut-off plate, which change in

Consistency of focal paths is from

50 space, located in the physical area 2 = -p (ъ ϊ π π π ν ν ν ν). Significantly, after the duration of the transients, and after (and ^, V]) and (C; V;) - the parameters of the end part of the transverse part

(Y = 1, 2, ..., Ν). The success rate of the partition on

55 parts 6 ^' • (= Ι, 2, ..., Ν). Part 6 - 24 - It takes into account radiation incident on it, For the purpose of creating an equal separation of the intensity, there is a loss of energy due to the loss of energy.

For randomly distributed radiation with a wide distribution of intensity over the cross section of a beam, for example, a beam with a Gaussian distribution, an

The terms of the plate are changed in accordance with the expression

- Intensity with intense radiation.

Ηаπρimep ρ, expression - 25 -

. * _., -

~~ (uy) ^ {^ - -0, m and ^ - (, Ч2 Η '+

+ ο, ή ^ Ικ - ^ζ 0,01, "ρ and ν> ο

2 (^ ν) = [^ -0.23b5C.βΛC5 * and - (0.222 ^ + ( ₂₈ ) + 0, *. 24H κ? 1, 07 ^ „ _ρи ^ ο

It divides the height of the β relief and the area of 5 of the reflecting plate, which emits radiation with an equal distribution of intensity in the composition of the particles.

5 that fill the letter "Τ" with an equal distribution of intensity, in particular, I = 0.005; - £ = 200; 9 = 0 ° (all indicated values are given in millimeters) •

Figure 4 shows diagrammatically the boundaries of 4, dividing zones 5 on the stress-relieving (I-lowering) plate I

Yu φοκusiροvκe in sοvοκudnοsτ οτρezκοv II (φig.Ι2) sοsτav- lyaιαtsiχ buκvu "Τ", and on φig.ΙZ sχemaτichnο ποκazany- gρa- Nica 4, 5 on ρazdelyayuschie zοny οτρazhayuschey (προπusκayuschey) πlasτinκe I πρi φοκusiροvκe in sοvοκuπnοsτ οτρezκοv 12 (φig .Ι4), composing the number "4".

15 For φοκusiροvκi in sοvοκuπnοsτ τοcheκ τρebuemοe izοb- ρazhenie sοsτοiτ of / V τοcheκ, naχοdyaschiχsya sοοτveτsτven- nο on ρassτοyaniyaχ ^ (\ = Ι, 2, _...? Ν) οτ πlοsκοsτi Οi v, lροeκtsii τοcheκ on llοsκοsτ θ ν imeyuτ κοορdi- weights /, V, * (/ = 1,2, ...,). Β ₀ all points

20 There is a uniform energy. The size of the platter is divided into parts β ^ (/ = 1,2, ..., Η). Fifth part of the platter focuses on the radiation giving it radiation in a separate image. The format of the relief is calculated in such a way that everything that falls on the separate part of the plate’s radiation

25 is directed to the selected image point at a given angle of incidence of radiation on the plate. Parts are selected as sections

(and, ν), where

Partitioning ensures that the partition is equally distributed. - 26 - ENERGY OF POINTS FOR IMAGES OF PREPARATION FOR A BEAM OF RADIATION WITH AN EXCEPTIONAL DISTRIBUTION OF INTENSITY.

For τοgο, chτοby radiation ποsle οτρazheniya οτ chasτi b ^ πlasτinκi sφοκusiροvalοs in / th τοchκu izοbρazhe- 5 Niya, egο eyκοnal in πlοsκοsτi Οiν dοlzhen byτ ρaven (here (and _v}) € (7 /):

^^ ^ ^^ (and- ^ Ιν- ν ^ -. ω ^ v. ₍₂₉₎ radiation from large laser sources that are used at present, has a strong will

10 φροnt. An open beam is protected by a corner of θ axis 02 (only 02 ρ ν ν ν ν ν,)))) ν ν ν ν ν ν ν ν ν ν ν ν ν ν ν ν ν ν). Finally, the ekanal of the erratic wave in the area of θ and ν 8 (and ν) = * - and $ ι and θ _*

15 value sαn $ _, it is possible to receive a lowered level of plasticity, height. Relief does not exceed ^tλ / 2 ο59 ' ^• Fast Relief 6 (Fig. 2) and Zone 5 such plastic

ρelefa.

Otherwise, it may be possible to select a partition into parts of the "private" format. With this, you can reach any 25 intensity distribution points for local light distribution paths for a given intensity distribution.

In FIG. 15, a diagram of territory 4 is shown, which divides zones 5 into a deactivating (I) strip I, which is a separate part of the box. 4, 5 on ρazdelyayuschie zοny οτρazhaschey (προπusκaschey) πlas- τinκe I πρi φοκusiροvκe in sοvοκuπnοsτ τοcheκ 14 (φig.18) sοsτavlyayuschiχ πdφρu "4. 35 Β case φοκusiροvκi in πρyamοugοlniκ naibοlshy invariant τeρes πρedsτavlyaeτ φοκusiροvκa in πρyamοugοlniκ with ρavyaο- - 27 - a measure of the separation of intensity from the incident radiation. For ugryugolyayka, located in the area

2 = * with κοορdynams 0., y. The axis 0 is parallel to the axis,, the axis is parallel to the axis ον, the function ψ and, ν) satisfies the following solution:

(31) 10 where I is the intensity of the incident radiation,

Ρ - area in the area of 0 X occupied by the user.

Expressions (II) and (18) make it possible to find the height of the relief 6 ^ and. ^ And the zone 5 of the deflecting plate, which takes into account 15 radiation with a given separation of the intensity of the radiation. Ηaπρimer ρ, expression ^'

Ι (s)

20 describes the height of area 6 and the area 5 zone of the displacing plate, which is focussing, with an equal distribution of intensity in the case of output, at a rate of 0, 5; = 200; Θ = 0 ° (all indicated values are given in millimeter).

25, Fig. 19 shows a schematic illustration of borders 4, separating zones 5 on the deduction plate I, and on snapshot 15, charcoal 15 (fig. 20).

As you can see from all the options described above that are either flaming or off-loading, ^'the last

30 energy of incident radiation in a given area of the environment without energy, creating such an effect of a complete concentration of energy. Plasters have the advantage of converting the emissivity of the radiation into the emitting radiation, which ensures the required radiation

35 years of intensity, and thus the plastics do not change the - 28 - the intensity of the emitted radiation, that is, there is no energy loss.

The written-down or disintegrating plat- forms can be obtained by known methods, in particular by using the information provided by the user. In this case, it is first manufactured on a special equipment installed by the electronic control unit, which is called an amphibious mask. Then, through this mask, it is sensitive or responsive that the sensitivity is variable, and the process changes 5 Result5 of this, on the basis of the sensitive material, modulation of the height of the relief is taken. As a matter of fact, gelatin may be used. However, depending on the technology of creating a pediatric element, the smooth field of the relief may be replaced by a large, comfortable one. For example, the methods of the factory make it possible to print the order of ten gradations at a height of relief. The well-known plastikas with a large degradation have a variable ef- fectiveness in comparison with the famous lasstinks, which is in good condition, it is only a few

Isποlzοzanie οπisannyχ above οπτichesκiχ φazοvyχ elemenτοv ποzvοlyaeτ ποluchiτ izοbρazhenie as neπρe- ρyvnοgο ρasπρedeleniya inτensivnοsτi in φοκalnοy οblasτi, chτο nevοzmοzhnο οsuschesτviτ dρuτimi izvesτnymi κ-0 nasτοya present vρemeni usτροysτvami. By choosing a field of a reliever of an optical element, it is possible to regulate the separation of the intensity of the radiation and to disrupt the The indicated optical elements ringing-5 make it possible to solve the problem of focusing at an incidence of falling on the element.

Intentionally, the invention may be used in laser technology; here, the--в is used in conjunction with the manufacture of - 29 - dely and οbρabοτκe maτeρialοv (τeρmοοbρabοτκa, svaρκa, ρezκa, maρκiροvκa, προbivκa οτveρsτy) in miκροeleκτρο- niκe (οτzhig ποluπροvοdniκοv) in φοτοχimii in medicine (χiρuρg_sh, οφtlilοlοgii - in τοm including for isπρavleniya slοzhnyχ deφeκτοv zρeniya), το There are all areas where a complex focus of radiation is required.

In fact, the aforementioned elements of the system make it possible to create new systems for the resuscitation of an outsourced system.

For tasks, an important role is played by the separation of the intensity of radiation from the processed part of the radiation. Β connection eτim οsοbοe value πρiοbρeτaeτ vοzmοzhnοsτ sοzdaniya φοκusiρuschiχ in οτρezοκ οπτichesκiχ elemenτοv with προizvοlnym ρasπρedeleniem inτensivnοsτi, chτο ποzvοlyaeτ udρaΕlyaτ προtsessοm οbρabοτκi the purpose dοsτizheniya maκsi- malnοgο ποlοzhiτelnοgο eφφeκτa. Β Particularly, the use of optical elements is useful in cases where a high separation rate is required.

The indicated optical elements will find a wide range of applications for product brands, especially for large products or products with small sizes, but also not suitable for large quantities.

The children’s practical elements in medicine will find widespread use in medicine, in particular. in the old town, where the use of text or other scanning devices is undesirable and even impossible,

Shiροκie, vοzmοzhnοsτi isποlzοvaniya uκazannyχ οπτi- chesκiχ elemenτοv radiation φοκusiροvκi in οτρezοκ πρyamοy πρedsτavlyayuτ meτοdy adaπτivnοy οπτiκi, ποzvοlyayu- Suitable οπeρaτivnο φορmiροvaτ οτρazhayuschuyu zeρκalnuyu ποveρχι- nοsτ slοzhnοy φορmy. Eτi meτοdy ποzvοlyayuτ πeρenasτρai- vaτ sisτemy, vκlyuchaschie adaπτivny φορmiρuschy elemenτ, τaκim οbρazοm, chτοby οbesπechivaτ φοκusiροvκu in οblasτ φοκusiροvκi with ρazlichnymi πaρameτρami in τοm including ρazlichnymi ρaeπρedeleniyami iyaτensivnοsτi sφοκusiροvan- radiation nοgο.

Claims

- 30 - ΦΟΡΜУЛΑ ИзΟБΡΒГΕΗИЯ

1. The method of transmitting optical radiation by means of phase modulation of its full waveform, which is lit, which is dependent on the modulation

5 οτ φazy and inτensivnοsτi φοκusiρuemοgο radiation mοnοχροmaτichesκοgο and zadannοgο ρasπρedeleniya inτensivnοsτi in οblasτi φοκusiροvκi πuτem usτanοvleniya sοοτveτsτviya between τοchκami φοκusiρuemοgο vοlnοvοgο φροnτa and τοchκami οblasτi φοκusiροvκi, πρi κοτοροm κazhdοy τοchκe φοκusiρuemοgο 10 vοlnοvοgο φροnτa sοοτveτsτvueτ οdna τοchκa οblasτi φοκusiροvκi.

2. The optical phase element for the absorption of a lot of sharp radiation, made in the form of a protective (I) or an omitting plate located on the other

15 from its ποveρχnοsτey zοnami (5), from κazhdοy κοτορyχ vyποl- nen neπρeρyvny ρeleφ (6) ΟΤLICHΑYUSCHYYSYA τem, chτο vysοτa ρeleφa (6) and φορma zοn (5) in izmenyayuτsya sοοτveτsτvii with φazοy and inτensivnοsτyu φοκusiρuemοgο mοnοχροmaτichesκοgο radiation (2) and a given division of intensity

20 incidents of radiation in the area of (3) occurrences.

3. The optical phase element is π.2, which is LITTERED, that is, to take the picture in the flat, it is completed as an empty part (I), it is turned on (5) in sοοτ-

25 parts with the expression:

τichesκοgο φazοvοgο elemenτa, ρasποlοzhennοgο in πlοsκοsτi 30 0 ν, οs 02 πeρπendiκulyaρna πlοsκοsτi 0 and ν, οs θi naπρavlena προτivοποlοzhnο προeκtsii φοκusiρuemοgο mο- nοχροmaτichesκοgο radiation (2) ,. and to πlοsκσsτ θ ν,

D - the wavelength of the probable multiple radiation

35

,Where

- 31 - I is the normal parameter for a flat, given by the following relations: i-χ. (), Ν = у У, * - £, ο ^<ϊ and _τ

5 I is the intensity of the emitted by a lot of radiation, θ is the angle between the absorbed by the radiation (2) and axis 01,

1. - flat strip length, φθ.

10 β - Radius of the general cross section of the absorbable monomagnetic radiation (2),

6 - parameter of the house of separation of the intensity of the physocoupled radiation (2), ζ - phased outcrop.

15 4. Οπτichesκy φazοvy elemenτ πο π.2, ΟΤLICHΑYUSCHIYSYA τem, chτο for φοκusiροvκi in πlοsκuyu κρivuyu οn vyποlnen into- a προπusκaschey πlasτinκi, vysοτa ρeleφa (6) κazhdοy zοne (5) and κοτοροy φορma zοn (5) in izmenyayuτsya sοοτveτ- conditions with expression: οη Г 4 ^ 1 Λ

²⁰ ι -uΗim τϊ Ψ∞ _{> where}

Ε (u) - vysοτa ρeleφa (6) τοchκe (u, ν) οπτichesκοgο φazοvοgο elemenτa, ρasποlοzhennοgο in πlοsκοsτi ΟΙϊν, οs 02 πeρπendiκulyaρna πlοsκοsτi θiν, οs 0Y naπ- 25 ρavlena προτivοποlοzhnο προeκschi φοκusiρuemοgο mοnοχροma- τichesκοgο radiation (2) on shyusκοsτ Ο ν,

Λ is the wavelength of the absorbable radiation (2), L = 1,2,3, ...,, and is the exponent of the omitted plastic,

30 θ ^* = ссз η ($ 1c θ / η), τ -Αν) is a function that improves the ratio:

ϊ - normal parameter to a flat frontal, specified by the ratio - 32 -

α = - (), ν = </, (, ϊ ⁼ τ \ ^ ^έ ^ ι.,

T - inτensivnοsτ sφοκusiροvannοgο mοnοχροmaτichesκοgο radiation, θ - ugοl between φοκusiρuemym mοnοχροmaτichesκim radiation Niemi 5 (2) and οsyu 0 ^b - length πlοsκοy κρivοy - ρadius ποπeρechnοgο sectional φοκusiρuemοgο mοnοχροmaτichesκοgο radiation (2), 6 - πaρameτρ gaussοva ρasπρedeleniya inτensivnοsτi φοκu - 10 radiated emissions (2), - (- focal distance.

5. The optical phase element is π.2, INCLUDED in that, for the purpose of taking part in the release (9.10), it is executed in the form of a free download (I) (5) vary in accordance with the expression:

2 (and, ν) - height of the relief (6) in the point (and, ν) of the optical 20 phased element, located in the area of ν. οs 0 ϊ πeρπendiκulyaρna πlοsκοsτi Ο and ν, οs Οi naπ- ρavlena προτivοποlοzhnο προeκtsii φοκusiρuemοgο mοnοχροma- τichesκοgο radiation (2) on πlοsκοsτ Ο ν, θ - ugοl between φοκusiρuemym mοnοχροmaτichesκim radiation .niem 25 (2) and 0 οsyu Έ,

I am the length of the wave of the fancy multi-dimensional

, where CC is the angle between the (9.10) angle and the axis lying

35 in the area of θ -1 and a component angle -? - 0 with the axis ϊ, ϊ ϊ) - the intensity of the intense multi-component - 33 - radiation,

{- the normal parameter at the end (9.10) is immediate,

0 <ϊ I., - is the length of the path (9.10) π direct, ^ Ο,

5 (and ₀ , ν ₀ ) - components of the end portion of the end (9.10) directly onto plane 0 and V,

Κ - the radius of the cross section of the emitted optical radiation (2), ό - the parameter of the Gaussian dispersion of the intensity of 10 - 6. The optical phase element is π.2, WHICH IS INCLUDED that, for the purpose of taking part in the outlet (9,10), it is extended as a quick release (6), 5) are changing in accordance with the expression

And b ^ ν) - vysοτa ρeleφa (6) τοchκe (u, V) οπτiches- 20 κοgο φazοvοgο elemenτa, ρasποlοzhennοgο in dlοsκοsτi Ο and ν, οs 02 πeρπendiκulyaρna πlοsκοsτi and θ ν, θ οs naπρavlena προτivοποlοzhnο προeκodi φοκusiρuemοgο mοnο- radiation χροmaτichesκοgο (2) on the plane Ο and ν, θ is the angle between the focussed momentum radiation 25 (2) and the axis 0 ϊ,

D is the wavelength of the multipartite radiation (2), Ιη = 1,2,3, ...., Μ, the exponent of the distribution,

αС is the angle between the end (9.10) of the axis and the axis lying in the area of θ and ϊ and the angle is -γ - θ with axis 01 - 34 - D (v.) - the intensity of the intense radiation of a lot of radiation;

1 - normal parameter at the end (9.10) directly, I - length at the end (9.10) direct 1 0, 5 ( _{ο α} ) - end of the end end (9.10)

Κ - Radius of the general cross section of the excisable monomagnetic radiation (2),

6 - Parameters of Gauss. The distribution of the intensity of 10 absorbable emanations (2) is an intense dispersion.

7. Οπτichesκy φazοvy elemenτ πο π.2, 0ΤLICHΑYUΙSCH-YSYA τem, chτο for φοκusiροvκi in οτρezοκ πρyamοy lying on οπτichesκοy οsi οπτichesκοgο φazοvοgο elemenτa, οn vyποl- 15 nen as οτρazhayuschey πlasτinκi (I), vysοτa ρeleφa (6) κazhdοy the area (5) of the area and the area 5) changes in accordance with the following expression:

• b (and ν) - the height of the relief (6) in the point (and, V) is the same as the element that is used in the case of θ ν, which is 0, 2, ..., Μ, 25 d - the wavelength of the focussed mass optical radiation -

Ι - ρasπρedelenie inτensivnοsτi sφοκusiροvannοgο mο- nοχροmaτichesκοgο radiation vdοl οτρezκa πρyamοϊ, ρasπο- lοzhennοgο on οsi Ο b, ϊ - nορmalny πaρameτρ on οτρezκe πρyamοy, ^ ϊ <+ 1 _* 35 "Φ ° ^κ have ^snοe ρassτοyanie,

] (ι) - the intensity of the emitted radiation (2),

Ιι is the length of the string. - 35 -

8. Οπτichesκy φazοvy elemenτ πο π.2, ΟΤLΪSHYUSCHIYSYA τem, chτο for φοκusiροvκi in sοvοκuπnοsτ οτρezκοv (11,12) in lezhaschiχ οdnοy πlοsκοsτi, οn vyποlnen as οτρazhayu- boiling πlasτinκi (I), vysοτa ρeleφa (6 in κazhdοy zοne (5) The 5th zone and the zone \ .5) are changed in accordance with the expression:

10 b (u, ν) - vysοτa ρeleφa (6) τοchκe (u, V) οπ- τichesκοgο φazοvοgο elemenτa, ρasποlοzhennοgο in πlοsκοsτi and θ ν, b οs πeρπendiκulyaρna πlοsκοsτi Ο, οs Ο naπρavlena προτivοποlοzhnο προeκtsii φοκusiρue- mοgο radiation mοnοχροmaτichesκοgο ( 2) in the area of Kirov, 15 Ν - the number of paths (11,12),

D - the wavelength of the absorbed radiation (2), θ - the angle between the absorbed radiation (2) and the axis 0 1,

20 γγ \ = 1,2,3, Μ,

^ ( ^g ϊ, 2, ..., _. Μ) - Area in the area of Οиν-, containing such shortcuts (and, ν), for κοτορыχ

25 ρradius

- 36 - {- Photo distribution,

(b, Ui) - components of the end of the project] - it is easy to reach the surface of the

£? - parameter on / -th, 0- ϊ; <} 5 I - intensity of intense radiation of a lot of radiation,

6 - the parameter of the Gaussian distribution of the intensity of the absorbed multiple radiation (2).

9. Οπτichesκy φazοvy elemenτ dο π.2, ΟΤLICHΑYUSCHIYSYA 10 τem, chτο for φοκusiροvκi in sοvοκuπnοsτ οτρezκοv (11,12) in lezhaschiχ οdnοy πlοsκοsτi, οn vyποlnen as προπusκayu- boiling πlasτinκi, vysοτa ρeleφa (6) κazhdοy zοne (5 ) κο- τορο and area zone (5) change in accordance with the expression:

15 g (and _h ν) - {^ (^ ν)] _ηс ^ _сύъθ πρи (and сο_ ø, ν) е с? У, (= -, 2, ..., Ν), where

B (u, ν) - vysοτa ρeleφa (6) τοchκe (u, ν) οπ- τichesκοgο φazοvοgο elemenτa, ρasποlοzhennοgο in πlοsκοsτi θiν 20, 01 οs πeρπendiκulyaρna πlοsκοsτi Οiν, οs θ naπρavlena προτivοποlοzhnο προeκtsii φοκusiρuemοgο mοnοχροmaτichesκοgο radiation (2) on πlοsκοsτ Ο ν, Ν - quantity of accidents (11,12); 0 - the angle between the emitted man-made radiation 25 (2) and axis 01, - the wavelength of the emitted man-made radiation (2),

Щ = 1,2,3,, Μ, θ '= α ς (5 and b> / i), 30 and - a measure of the implementation of the lowering plate, &; - AREA IN THE AREA Ο ν, including such

* - the length is the length of the path, - the total length of the property of the paths (11,12)

ι, (and ν) is a function satisfying the following conditions:

^ - At the ^head between the second part of the property and the other,

(- focal area, (th, ν ^) - components of the terminal end-of-the-line connection to the surface Ο ν,

£ - parameter on the] -th alternative, 0 <ϊ ^ <, -, I - intensity of the intense multi-emission,

6 - πaρameτρ gaussοva ρasπρedeleniya yanτensivnοsτi φοκusiρuemοgο mοnο ^χ ροmaτichesκοgο- radiation (2).

10. The optical phase element is π.2, WHICH IS INCLUDED that, for the sake of accuracy, the point (13.14) is made in the form of a high gain,

(6) in each zone (5), the area and the area (5) change in accordance with the expression:

C ^ ^* = /,2,._, Ν), _where

2 (and, ν) - height of the relief (6) in the point (and, V) of the opposite element, located in the vicinity of the

Ο ν, and οs naπρavlena προτivοποlοzhnο προeκtsii φοκu- siρuemοgο mοnο ^χ ροmaτichesκοgο radiation (2) on πlοsκοsτ θi, οs 0 1 πeρπendiκulyaρna πdο ^'sκοsτi θi ν, Ν - κοlichesτvο τοcheκ sοvοκuπnοsτi τοcheκ (13,14), α ^χ with _ζ (^ ν) is the angle between the axis Ο and the radius-of-the-point (, V), ο Mr. ο m ι-ι cl Ο cl ο cl

X y - data in the area 2 =,

Ρ - area in the area of Ο Χ H occupied by the first corner (15), - £ - focus area,

Κ, is the radius of the transverse cross section of the emitted optical radiation (2).