“Almost like a real web site”
 

IN7OMM.COM
Search | Contact
News | e-News
Rumour Mill | Stories
Foreign Language
Auf Deutsch

WHAT'S ON IN 7OMM?

7OMM FESTIVAL
Karlsruhe | Gentofte
Krnov | Varnsdorf
Banská Bystrica
Oslo | Bradford

TODD-AO PROCESS
Films | Premiere
People | Equipment
Library | Cinemas
Distortion Correcting
DP70 / AAII Projector
 

VISION, SCOPE & RAMA
1926 Natural Vision
1929 Grandeur
1930 Magnifilm
1930 Realife
1930 Vitascope
1952 Cinerama
1953 CinemaScope
1953 Panavison
1954 VistaVision
1955 Todd-AO
1955 Circle Vision 360
1956 CinemaScope 55
1957 Ultra Panavision 70
1958 Cinemiracle
1958 Kinopanorama
1959 Super Panavision 70
1959 Super Technirama 70
1960 Smell-O-Vision
1961 Sovscope 70
1962
Cinerama 360
1962 MCS-70
1963 70mm Blow Up
1963 Circarama
1963 Circlorama
1966 Dimension 150
1966
Stereo-70
1967 DEFA 70
1967 Pik-A-Movie
1970 IMAX / Omnimax
1974 Cinema 180
1974 SENSURROUND
1976 Dolby Stereo
1984 Showscan
1984 Swissorama
1986 iWERKS
1989 ARRI 765
1990 CDS
1994 DTS / Datasat
2001 Super Dimension 70
2018 Magellan 65

Various Large format | 70mm to 3-strip | 3-strip to 70mm | Specialty Large Format | Special Effects in 65mm | ARC-120 | Early Large Format
7OMM Premiere in Chronological Order

7OMM ON EARTH

Australia | Brazil | Canada | China | Denmark | England | France | Germany | Holland | India | Iran | Israel | Ireland | Mexico | Norway | Poland |  Russia | Spain | Sweden | Turkey | USA |

LIBRARY
7OMM Projectors
People | Eulogy
65mm/70mm Workshop
The 7OMM Newsletter
Back issue | PDF
Academy of the WSW

7OMM NEWS
• 2026 | 2025 | 2024
2023 | 2022 | 2021
2020 | 2019 | 2018
2017 | 2016 | 2015
2014 | 2013 | 2012
2011 | 2010 | 2009
2008 | 2007 | 2006
2005 | 2004 | 2003
2002 | 2001 | 2000
1999 | 1998 | 1997
1996 | 1995 | 1994
 

in70mm.com Mission:
• To record the history of the large format movies and the 70mm cinemas as remembered by the people who worked with the films. Both during making and during running the films in projection rooms and as the audience, looking at the curved screen.
in70mm.com, a unique internet based magazine, with articles about 70mm cinemas, 70mm people, 70mm films, 70mm sound, 70mm film credits, 70mm history and 70mm technology. Readers and fans of 70mm are always welcome to contribute.

Disclaimer | Updates
Support us | Staff
Testimonials
Table of Content
 

 
 
Extracts and longer parts of in70mm.com may be reprinted with the written permission from the editor.
Copyright © 1800 - 2070. All rights reserved.

Visit biografmuseet.dk about Danish cinemas

 

The Importance of Panavision
The Invention Phase

This article first appeared in
..in 70mm
The 70mm Newsletter
Written by: Adriaan Bijl, Holland
Reprinted by permission from the writer and Panavision
Issue 67 - March 2002
As was stated previously, Panavision was founded when the motion picture industry was in great turmoil. But this particular 'movement' was not the cause of its foundation, it was formed by people. In order to make it clear why Panavision was founded and by whom, one must inevitably look at the issues which preceded the creation of the company.

Robert Gottschalk was born in 1918, in Chicago. His father was a contractor, who specialized in motion picture theaters. This work provided his family with a wealthy financial status. Robert's brother, Howard, moved to California to become a medical doctor. Robert followed him, after graduation in theater and arts at Carleton College in Minnesota. His intention was to become a filmmaker. Being a voracious reader, he had many interests, and photography was one of them. In 1949, he bought an interest in the Campus Camera Shop in Westwood Village and went to work there. This position allowed him to become acquainted with photographers. He made short subjects on 16mm by himself, and was able to sell them to local tv-stations as news items (1). 

Located in the neighborhood of the Campus Camera Shop was the distributor of Jacques Cousteau's aqualung, a device for underwater-photography. Before this invention, in the early 1950's, filming underwater had been difficult. Cameras were great bulky machines but the aqualung made the equipment mobile. Gottschalk was fascinated by it. By virtue of this neighbor, he and John Richard Moore, a personal friend and one of his colleagues at the camera shop, got a good taste of underwater photography. However, the refraction of the water narrowed everything down, and there was no wide angle lens available to undo this limitation. Gottschalk had read about the anamorphic process developed by Henri Chretien in France in the late 1920's. By snooping around, he discovered that C.P. Goerz, an optical company in New York, had a few of these lenses in stock. He bought a couple and did some experiments with them. 

Gottschalk found out that by placing one in front of the other and counter rotating them, the expansion factor could be varied. The original expansion factor of these two lenses was 1.5 each. The two lenses combined together in a certain position would give an expansion factor because CinemaScope had the same expansion factor. It was the beginning of 1953, 20th century Fox had purchased Chretien´s process and given the name "CinemaScope" a lot of publicity. Gottschalk´s intention was to make a demonstration reel, in which he could show that he also was able to make an anamorphic film, since CinemaScope seemed poised to become a hot item (2)

By the time 20th Century Fox announced the production of "The Robe", Gottschalk, Moore and Meredith Nicholson, a professional cameraman and friend of Moore and Gottschalk, had filmed several anamorphic scenes of interest. Harry Eller, president of Radiant Screen of Chicago, contacted Gottschalk in the camera shop with the intention of selling screens. When he heard about their anamorphic experiments, he mentioned his business of selling wider screens to the theatres. He also mentioned the expanding market of anamorphic projection lenses. Fox had a contract with Bausch and Lomb, an international lens manufacturer, which would provide the photographic, also known as taking, or camera lenses. However, Bausch and Lomb was not able to fill the market for the required anamorphic theatre projection attachment lenses.
The reason why seems unclear. According to Richard Moore, Bausch and Lomb was not interested in it, because the market for projector attachments was too small for its standards (3). According to George Kraemer, mass-production of Bausch and Lomb's cylindrical type lenses was not possible at that time (4). An advertisement from Bausch and Lomb for their lenses in the SMPTE Journal in 1954 added to the confusion (5). The advertisement stressed the specific qualities of the cylindrical lenses. It is not likely that a company would issue an advertisement for a product in which it is neither interested, nor capable of making in large quantities.

And soon the idea was born to manufacture anamorphic projection lenses. One of the first elements required to make them is glass. William I. Mann was the owner of an optical company in Monrovia, California, and Gottschalk contacted him. Mann introduced Moore and Gottschalk to Walter Wallin, a mathematician, who was interested in optics. He told them that the anamorphic effect could also be achieved with prismatic rather than cylindrical lens elements which was the way Chretien had originally invented, patented, and sold the package to Fox (6). Panavision, Incorporated was founded in the fall of 1953 by Gottschalk, Moore, Nicholson, Wallin (who would design the prisms), and Mann (who would grind the lenses). Gottschalk would be the president, owning 51% of the shares. Moore would be executive vice-president with 12.25% of the shares, and the others would have what was left of the titles and the shares. The starting capital was a total of $5,000, each founder raised, according to his part in the stock, his share of that total amount (7).

The company primarily manufactured prismatic anamorphic theater attachments. The advantage of this projection lens over the cylindrical type lenses was that it was less elaborate and less expensive to make. An additional feature was the variation knob on top of the lens. The lens consisted of two prisms (doublets) which were oriented in such a way that they could be swiveled from zero expansion to two. In other words, the aspect ratio of the projected image could be varied during projection from the traditional 1.33:1 to 2.66:1. This made it feasible to project the non-anamorphic newsreels and trailers, as well as the anamorphic feature through this attachment. The cylindrical lens did not have this ability. Instead, it was fixed on an expansion factor of two, meaning that this attachment had to be removed for non-anamorphic projection. Apart from that, in the early 1950's there always was the possibility that a company would come up with an anamorphic process which featured another expansion factor (8). This would mean another anamorphic lens would be required, unless the expansion factor could be varied.

The Panavision attachment, named the Super Panatar, was capable of covering any possible anamorphic process between zero and two. Finally, the variation knob also functioned as a gimmick. During particular scenes theater projectionists could expand or contract the image on the screen (e.g. during a cartoon) by turning the knob (9). However, there was one disadvantage to this lens: Due to the construction of the prisms, the projection had to go through eight glass surfaces. This meant a final loss of light of about 15% (10). 

But manufacturing is one thing, trying to sell the product was something else. Gottschalk had a gift for that. He started at the end of 1953 by giving a presentation to a group of Hollywood cameramen, technicians and others interested in commercial and educational motion pictures, called the "Reel Fellows". He presented Panavision as a new widescreen process, identical to CinemaScope but with a higher quality in definition and sharpness. During this demonstration, Gottschalk stated that Panavision anamorphic lenses would soon be available for 35mm taking lenses, 16mm taking and projection lenses, 8mm taking and projection lenses, and a Panavision lens for still photography. One of the attendants wrote:

There was less bending of the horizon than was experienced with CinemaScope and excellent depth of field. Straight edges were straight with no barreling or distortion: lines remained square But it is only fair to say that the Panavision demonstration was done in a relatively small room with a small throw, while CinemaScope was on a regular theater screen (11). 

Of course Gottschalk was not lying when he said that the Panavision lens was available for anamorphic photography, but the patents on anamorphic photography belonged to 20th Century-Fox. In Chapter 1 it was stated that within a short period of time other anamorphic processes were presented in order to avoid paying patent rights. This was not the case in Hollywood where Fox dominated the making of anamorphic motion pictures for a number of years, via its subsidiary, CinemaScope. Fox could have prohibited the actual projection in the cinemas. The first thing to do, therefore, was to get permission from Fox to sell Panavision projector attachments to the theaters. According to Richard Moore, Spyros Skouras (president of 20th Century-Fox) granted permission during a meeting in New York, to show Fox anamorphic prints through the Super Panatar (12). 

Thus, the road was now free for selling anamorphic projection attachments. Gottschalk presided over product-demonstrations which he arranged for exhibitors in Los Angeles and New York.

Summary

Panavision had now manufactured projection attachments, made up of less expensive components. However, that does not imply establishment in an economic market. The subject of establishment is even more important when one realizes that the market would be limited since there were only a fixed number of theaters. In other words: Following the invention of the anamorphic prismatic projection attachments, new products had to be developed, in order to prevent the company from going out of business once the market of projection attachments had been saturated.

 
Further in 70mm reading:

Panavision History Home

Introduction

1 In the Beginning
3 Innovation Phase
4 Diffusion Phase

Conclusion
Bibliography


Super Panavision 70
Ultra Panavision 70


Internet link:

Panavision
 
 
 
 
The Invention Phase

1 Richard Moore, interview by author, 4 September 1991, Hollywood, California, telephone interview.
George Kraemer, interview by author, 11 July 1991, Tarzana, California, video and audio recording.
2 Richard Moore, interview by author, 11 July 1991, Hollywood, California, video and audio recording.
Moore, 4 September 1991.
3 ibidem.
Richard Moore, interview by author, 10 August 1991, Hollywood, California, telephone interview.
4 Kraemer, 1991.
5 Bausch and Lomb advertisement, "Journal of the SMPTE" (November, 1954) p. 201.
6 Moore, 11 July 1991.
7 ibidem.
Moore, 10 August 1991.
8 That actually happened. VistaVision films were for a short period of time available as anamorphic prints with an expansion factor of 1.5, according to two Panavision advertisements in the "Film Daily" 15 October 1954, p. 9, and 12 November 1954, p. 13.
9 "Film Daily" 1 November 1954, p. 21.
10 Kraemer, 1991.
Takuo Miyagishima, interview by author, 11 July 1991, Tarzana, California, video and audio recording.
11 "Film World" December, 1953, p. 510.
12 Moore, 11 July 1991.
 
 
Go: back - top - back issues
Updated 28-07-24