Feasibility of stereophonic projection lithography applying a parabolic magic mirror system

Horiuchi, Toshiyuki; Kobayashi, Hiroshi

doi:10.35848/1347-4065/ac5e4c

Cited by 3 publications

(8 citation statements)

References 24 publications

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“…The prototype stereophonic projection exposure system developed and renovated in past research [25][26][27][28][29][30] was used in this research. The system is shown in Fig.…”

Section: Renovated Stereophonic Projection Exposure Systemmentioning

confidence: 99%

“…However, in the stereophonic exposure system, an aperture was opened also at the bottom center of the lower mirror, and patterns on a curved transparent reticle placed at the lower mirror center were projected on a curved specimen with the same surface shape by illuminating the reticle obliquely upward from the bottom. [25][26][27][28][29][30] In this paper, patterning characteristics of the parabolic mirror optics illuminated by a collimated light from one side are investigated in detail using a flat reticle with 200 μm line-andspace patterns and 4 inch silicon wafers. In addition, actual stereophonic patterning is demonstrated for the first time using plastic spoons.…”

Section: Introductionmentioning

confidence: 99%

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Demonstration of stereophonic projection lithography using parabolic mirror optics and collimated illumination from one side

Horiuchi

Iwasaki

Kobayashi

2023

Jpn. J. Appl. Phys.

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Capability of stereophonic projection lithography on arbitrarily but gently curved surfaces was demonstrated using plastic spoons as a reticle and specimens to be patterned. It had already been clarified that the patterned area size was drastically enlarged by illuminating the transparent reticle obliquely upward by collimated light from one side. Here, it was confirmed at first that 200 μm line-and-space patterns in 10 mm square area on a flat reticle were stably replicated on Si wafers with large exposure-time and focus margins. Next, reticle patterns on a spoon concave were successfully replicated on convex surfaces of specimen spoons. On the other hand, it was clarified that resist pattern field was distorted in a warped trapezoid, and pattern sizes were also varied similarly. However, because the distortions are regular and systematic, they are probably no problem, if critical overlays are not required. And, the distortions can be compensated by modifying the reticle, if necessary.

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“…The prototype stereophonic projection exposure system developed and renovated in past research [25][26][27][28][29][30] was used in this research. The system is shown in Fig.…”

Section: Renovated Stereophonic Projection Exposure Systemmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Demonstration of stereophonic projection lithography using parabolic mirror optics and collimated illumination from one side

Horiuchi

Iwasaki

Kobayashi

2023

Jpn. J. Appl. Phys.

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“…[28][29][30][31][32][33][34][35] For this reason, in the present study, the authors began the research and development of lithography systems applicable to the patterning of large patterns on arbitrarily but gently curved surfaces using optics known as a magic mirror system. [36][37][38] As a result, patterns on curved reticles were successfully replicated on curved specimen surfaces. 39,40) However, the shapes of the replicated patterns on the curved specimens were slightly different from the original ones on the reticle.…”

Section: Introductionmentioning

confidence: 99%

Distortions of parabolic mirror optics for stereophonic lithography and prospects of compensations

Horiuchi,

Iwasaki,

Kobayashi

2024

Jpn. J. Appl. Phys.

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The distortions of parabolic mirror optics used for stereophonic projection lithography were investigated. It has already been demonstrated that resist patterns are replicable on gently curved surfaces using mirror optics composed of faced paraboloids of revolution. However, it was found that replicated resist patterns were somewhat distorted from the original patterns. The distortions were caused by characteristics of projection optics. For this reason, the distortions were first calculated by tracing light rays. The calculation procedures are explained in detail. The calculated distortions almost coincide with the ones obtained by experiments. Next, the influences of distortions on the distributions of image intensity and replicated pattern widths were investigated. The maximum distortions reached 29% of the original size at the right-side corners of a 12 mm square, and the light intensity was lowered by 30%. For this reason, printed 200 μm pattern widths reached more than 500 μm on the right side. This was considered to be unfavorable for applying the method universally in various uses. For this reason, methods for compensating or modifying the optics distortions were investigated, and light intensity distributions were discussed.

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“…To realize the stereophonic projection lithography, characteristic optics composed of a pair of parabolic mirrors was applied [12][13][14][15][16] . And, owing to some distinguished ideas, it was demonstrated that patterns on curved reticles were successfully replicated on curved articles with the same shapes 17,18 . However, it was thought that reticles made by pasting transparent seals were insufficient for the practical use.…”

Section: Introductionmentioning

confidence: 99%

“…On the other hand, it was considered that fabrication and preparation of accurate curved reticles were not easy. For this reason, applicability of conventional flat reticles is investigated here 19 . Feasibility of using flat reticles is discussed.…”

Section: Introductionmentioning

confidence: 99%

Present situation of research on stereophonic lithography using a pair of parabolic mirrors

Horiuchi,

Iwasaki,

Kobayashi

2023

Photomask Japan 2023: XXIX Symposium on Photomask and Next-Generation Lithography Mask Technology

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As the present situation of stereophonic lithography using a pair of parabolic mirrors, a main subject of the research and challenges to solve it were discussed. Using a commercially available magic mirror system composed of a pair of parabolic mirrors, it was capable to make 3-dimensional real images of the original reflective objects placed on the lower mirror bottom at just above the upper mirror aperture. Utilizing this optics, and adding some ideas, stereophonic lithography on curved articles were enabled. At first, an aperture was opened at the bottom center of the lower mirror also. Next, transparent curved reticles were used instead of the original reflective objects. In addition, the transparent curved reticles were illuminated obliquely upward from the bottom using a collimated light from one side. Owing to these ideas, it was demonstrated that patterns on a curved spoon-shape reticles were successfully replicated on spoonshape articles with the same shape. However, the reticles were made by pasting transparent seals with emulsion illustrations. Such reticles were not desirable from the view point of accuracy and exposure homogeneity. To solve this important subject, a new idea was contrived further. That was the replication from the conventional flat reticle to curved articles using the same parabolic mirror optics. Because the focal redundancy was very large, patterns were replicable, though light intensity distributed, pattern shapes were distorted, and pattern widths were also distributed. However, it was thought feasible to utilize flat reticles by compensating the light intensity distribution and image distortions.

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Feasibility of stereophonic projection lithography applying a parabolic magic mirror system

Cited by 3 publications

References 24 publications

Demonstration of stereophonic projection lithography using parabolic mirror optics and collimated illumination from one side

Demonstration of stereophonic projection lithography using parabolic mirror optics and collimated illumination from one side

Distortions of parabolic mirror optics for stereophonic lithography and prospects of compensations

Present situation of research on stereophonic lithography using a pair of parabolic mirrors

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