Panavision: Difference between revisions
duplicate |
Rescuing 2 sources and tagging 0 as dead. #IABot (v1.3.2) (Feminist) |
||
Line 50: | Line 50: | ||
== Entering the market == |
== Entering the market == |
||
Panavision's first product—the Super Panatar<ref>The Panatar name was in response to the Bausch & Lomb lens called the Baltar. Gray, Peter. [http://www.petergray.org/scopehist.html History of CinemaScope] {{webarchive|url=https://web.archive.org/web/20090511141227/http://www.petergray.org/scopehist.html |date=2009-05-11 }}, 2003. Retrieved 2007-06-14.</ref> projection lens—debuted in March 1954. Priced at $1,100, it captured the market.<ref name="PANHIST">[http://www.panavision.com/history.php "History" (official company history and timeline).] Panavision.com. Retrieved on 2007-01-19.</ref> The Super Panatar was a rectangular box that attached to the existing projection lens with a special bracket.<ref>[http://www.widescreenmuseum.com/widescreen/superpanatar-d.htm ''Super Panatar Instruction Manual''.] Panavision, 1954. HTML transcription by WidescreenMuseum.com. Retrieved on 2007-01-19.</ref> Its variable prismatic system allowed a range of film formats to be shown from the same projector with a simple adjustment of the lens. Panavision improved on the Super Panatar with the Ultra Panatar, a lighter design that could be screwed directly to the front of the projection lens.<ref>[http://www.widescreenmuseum.com/Widescreen/ultrapanatar2.htm ''Ultra Panatar Instruction Manual''.] Panavision, 1955. HTML transcription by WidescreenMuseum.com. Retrieved on 2007-01-19.</ref> Panavision lenses gradually replaced CinemaScope as the leading anamorphic system for theatrical projection.<ref name="history">Cook, David A. ''A History of Narrative Film''. Norton & Company, 1990. ISBN 0-393-95553-2.</ref> |
Panavision's first product—the Super Panatar<ref>The Panatar name was in response to the Bausch & Lomb lens called the Baltar. Gray, Peter. [http://www.petergray.org/scopehist.html History of CinemaScope] {{webarchive|url=https://web.archive.org/web/20090511141227/http://www.petergray.org/scopehist.html |date=2009-05-11 }}, 2003. Retrieved 2007-06-14.</ref> projection lens—debuted in March 1954. Priced at $1,100, it captured the market.<ref name="PANHIST">[http://www.panavision.com/history.php "History" (official company history and timeline).] {{webarchive|url=https://web.archive.org/web/20070213071114/http://www.panavision.com/history.php |date=2007-02-13 }} Panavision.com. Retrieved on 2007-01-19.</ref> The Super Panatar was a rectangular box that attached to the existing projection lens with a special bracket.<ref>[http://www.widescreenmuseum.com/widescreen/superpanatar-d.htm ''Super Panatar Instruction Manual''.] Panavision, 1954. HTML transcription by WidescreenMuseum.com. Retrieved on 2007-01-19.</ref> Its variable prismatic system allowed a range of film formats to be shown from the same projector with a simple adjustment of the lens. Panavision improved on the Super Panatar with the Ultra Panatar, a lighter design that could be screwed directly to the front of the projection lens.<ref>[http://www.widescreenmuseum.com/Widescreen/ultrapanatar2.htm ''Ultra Panatar Instruction Manual''.] Panavision, 1955. HTML transcription by WidescreenMuseum.com. Retrieved on 2007-01-19.</ref> Panavision lenses gradually replaced CinemaScope as the leading anamorphic system for theatrical projection.<ref name="history">Cook, David A. ''A History of Narrative Film''. Norton & Company, 1990. ISBN 0-393-95553-2.</ref> |
||
In December 1954, the company created a specialized lens for film laboratories—the Micro Panatar. When fitted to an [[optical printer]], the Micro Panatar could create "flat" (nonanamorphic) prints from anamorphic negatives. This allowed films to be distributed to theaters that did not have an anamorphic system installed. To accomplish this dual platform release strategy before the Micro Panatar, studios would sometimes shoot films with one anamorphic and one spherical camera, allowing nonwidescreen theaters to exhibit the film. The cost savings of eliminating the second camera and making flat prints in [[post-production]] with the Micro Panatar were enormous.<ref name="ROUD"/> |
In December 1954, the company created a specialized lens for film laboratories—the Micro Panatar. When fitted to an [[optical printer]], the Micro Panatar could create "flat" (nonanamorphic) prints from anamorphic negatives. This allowed films to be distributed to theaters that did not have an anamorphic system installed. To accomplish this dual platform release strategy before the Micro Panatar, studios would sometimes shoot films with one anamorphic and one spherical camera, allowing nonwidescreen theaters to exhibit the film. The cost savings of eliminating the second camera and making flat prints in [[post-production]] with the Micro Panatar were enormous.<ref name="ROUD"/> |
||
Line 76: | Line 76: | ||
The effort to develop a lighter, quieter camera with a [[Reflex finder|reflex viewfinder]] led to the introduction of the Panavision Silent Reflex (PSR) in 1967.<ref name="PANHIST"/> The camera could provide a [[rotary disc shutter|shutter angle]] of up to 200 degrees. Many refinements were made to the PSR during the first few years after its introduction, and it soon became one of the most popular studio cameras in the world.<ref name="acpstory"/> Panavision also began manufacturing spherical lenses for 1.85:1 photography, garnering a significant share of the market. |
The effort to develop a lighter, quieter camera with a [[Reflex finder|reflex viewfinder]] led to the introduction of the Panavision Silent Reflex (PSR) in 1967.<ref name="PANHIST"/> The camera could provide a [[rotary disc shutter|shutter angle]] of up to 200 degrees. Many refinements were made to the PSR during the first few years after its introduction, and it soon became one of the most popular studio cameras in the world.<ref name="acpstory"/> Panavision also began manufacturing spherical lenses for 1.85:1 photography, garnering a significant share of the market. |
||
In 1968, Panavision released a handheld 65 mm camera.<ref name="BIJL"/> By that time, however, the much cheaper process of blowing up 35 mm anamorphic films to 70 mm—introduced with ''[[The Cardinal]]'' (1964)—had made 65 mm production virtually obsolete.<ref>Loring, Charles. "Breakthrough in 35mm-to-70mm Print-Up Process". ''American Cinematographer'', April 1964.</ref> In 1970, the last two feature films shot entirely with Super Panavision were released: ''[[Song of Norway]]'' and ''[[Ryan's Daughter]]''. In the decades since, only a handful of films have been shot in 65 mm.<ref name="SUPER">Hart, Martin. [http://www.widescreenmuseum.com/widescreen/splist.htm "Super Panavision Filmography"] {{webarchive|url=https://web.archive.org/web/20070210201549/http://www.in70mm.com/library/formats/super_panavision_70.htm |date=2007-02-10 }}. WidescreenMuseum.com. Retrieved on 2007-01-19; Hauerslev, Thomas. [http://www.in70mm.com/library/formats/super_panavision_70.htm "Super Panavision 70"]. in70mm.com. Retrieved on 2007-01-06.</ref> |
In 1968, Panavision released a handheld 65 mm camera.<ref name="BIJL"/> By that time, however, the much cheaper process of blowing up 35 mm anamorphic films to 70 mm—introduced with ''[[The Cardinal]]'' (1964)—had made 65 mm production virtually obsolete.<ref>Loring, Charles. "Breakthrough in 35mm-to-70mm Print-Up Process". ''American Cinematographer'', April 1964.</ref> In 1970, the last two feature films shot entirely with Super Panavision were released: ''[[Song of Norway]]'' and ''[[Ryan's Daughter]]''. In the decades since, only a handful of films have been shot in 65 mm.<ref name="SUPER">Hart, Martin. [http://www.widescreenmuseum.com/widescreen/splist.htm "Super Panavision Filmography"] {{webarchive|url=https://web.archive.org/web/20070210201549/http://www.in70mm.com/library/formats/super_panavision_70.htm |date=2007-02-10 }}. WidescreenMuseum.com. Retrieved on 2007-01-19; Hauerslev, Thomas. [http://www.in70mm.com/library/formats/super_panavision_70.htm "Super Panavision 70"] {{webarchive|url=https://web.archive.org/web/20070210201549/http://www.in70mm.com/library/formats/super_panavision_70.htm |date=2007-02-10 }}. in70mm.com. Retrieved on 2007-01-06.</ref> |
||
== Birth of Panaflex == |
== Birth of Panaflex == |
Revision as of 14:56, 20 May 2017
Company type | Private |
---|---|
Industry | Movie camera rental Motion picture equipment |
Founded | 1953 |
Founder | Robert Gottschalk Richard Moore |
Headquarters | , United States |
Key people | Kimberly Snyder (CEO) |
Products | Panaflex cameras Genesis HD camera Grip equipment Lee Filters |
Revenue | US$233.3 million (2005) |
250,000,000 (2008) | |
Number of employees | 1,211 (as of December 31, 2005) |
Parent | Saban Capital Group |
Website | www |
Panavision is an American motion picture equipment company specializing in cameras and lenses, based in Woodland Hills, California. Formed by Robert Gottschalk as a small partnership to create anamorphic projection lenses during the widescreen boom in the 1950s, Panavision expanded its product lines to meet the demands of modern filmmakers. The company introduced its first products in 1954. Originally a provider of CinemaScope accessories, the company's line of anamorphic widescreen lenses soon became the industry leader. In 1972, Panavision helped revolutionize filmmaking with the lightweight Panaflex 35 mm movie camera. The company has introduced other groundbreaking cameras such as the Millennium XL (1999) and the digital video Genesis (2004).
Panavision operates exclusively as a rental facility—the company owns its entire inventory, unlike most of its competitors.
Early history
Robert Gottschalk founded Panavision in late 1953, in partnership with Richard Moore,[1] Meredith Nicholson, Harry Eller, Walter Wallin, and William Mann;[2] the company was formally incorporated in 1954. Panavision was established principally for the manufacture of anamorphic projection lenses to meet the growing demands of theaters showing CinemaScope films.[3] At the time of Panavision's formation, Gottschalk owned a camera shop in Westwood Village, California, where many of his customers were cinematographers.[4] A few years earlier, he and Moore—who worked with him in the camera shop—were experimenting with underwater photography; Gottschalk became interested in the technology of anamorphic lenses, which allowed him to get a wider field of view from his underwater camera housing.[5] The technology was created during World War I to increase the field of view on tank periscopes; the periscope image was horizontally "squeezed" by the anamorphic lens. After it was unsqueezed by a complementary anamorphic optical element, the tank operator could see double the horizontal field of view without significant distortion.[4] Gottschalk and Moore bought some of these lenses from C. P. Goerz, a New York optics company, for use in their underwater photography. As widescreen filmmaking became popular, Gottschalk saw an opportunity to provide anamorphic lenses to the film industry—first for projectors, and then for cameras. Nicholson, a friend of Moore, started working as a cameraman on early tests of anamorphic photography.[6]
In the 1950s, the motion picture industry was threatened by the advent of television—TV kept moviegoers at home, reducing box office revenues. Film studios sought to lure audiences to theaters with attractions that television could not provide. These included a revival of color films, three-dimensional films, stereophonic sound, and widescreen movies. Cinerama was one of the first widescreen movie processes of the era.[7] In its initial conception, the cumbersome system required three cameras for shooting and three synchronized projectors to display a picture on one wide, curved screen. Along with the logistical and financial challenges of tripling equipment usage and cost, the process led to distracting vertical lines between the three projected images.[8] Looking for a high-impact method of widescreen filmmaking that was cheaper, simpler, and less visually distracting, 20th Century Fox acquired the rights to a process it branded CinemaScope: in this system, the film was shot with anamorphic lenses.[9] The film was then exhibited with a complementary anamorphic lens on the projector that expanded the image, creating a projected aspect ratio (the ratio of the image's width to its height) twice that of the image area on the physical frame of film. By the time the first CinemaScope movie—The Robe (1953)—was announced for production, Gottschalk, Moore and Nicholson had a demo reel of work with their anamorphic underwater system.[6]
Gottschalk learned from one of his vendors that Bausch & Lomb, whom Fox had contracted to manufacture CinemaScope lenses, was having difficulty filling the lens orders for theatrical anamorphic projection equipment.[6] He teamed up with William Mann, who provided optical manufacturing capability, and Walter Wallin, an optical physicist who was an acquaintance of Mann's. The anamorphic lens design they selected was prismatic rather than the cylindrical design of the Bausch & Lomb CinemaScope lens.[6] This design meant the anamorphic lens extension factor—how much the image is horizontally unsqueezed—could be manually shifted, useful for projectionists switching between nonanamorphic ("flat" or "spherical") trailers and an anamorphic feature.[6] The result was the anamorphosing system, designed by Wallin, used in the Panatar lens; the patent for the system was filed on August 11, 1954, and awarded five years later.[10]
Entering the market
Panavision's first product—the Super Panatar[11] projection lens—debuted in March 1954. Priced at $1,100, it captured the market.[12] The Super Panatar was a rectangular box that attached to the existing projection lens with a special bracket.[13] Its variable prismatic system allowed a range of film formats to be shown from the same projector with a simple adjustment of the lens. Panavision improved on the Super Panatar with the Ultra Panatar, a lighter design that could be screwed directly to the front of the projection lens.[14] Panavision lenses gradually replaced CinemaScope as the leading anamorphic system for theatrical projection.[15]
In December 1954, the company created a specialized lens for film laboratories—the Micro Panatar. When fitted to an optical printer, the Micro Panatar could create "flat" (nonanamorphic) prints from anamorphic negatives. This allowed films to be distributed to theaters that did not have an anamorphic system installed. To accomplish this dual platform release strategy before the Micro Panatar, studios would sometimes shoot films with one anamorphic and one spherical camera, allowing nonwidescreen theaters to exhibit the film. The cost savings of eliminating the second camera and making flat prints in post-production with the Micro Panatar were enormous.[3]
Another innovation of the era secured Panavision's leading position: the Auto Panatar camera lens for 35 mm anamorphic productions.[3] Early CinemaScope camera lenses were notoriously problematic in close-ups with an optical aberration that was commonly known as "the mumps": a widening of the face due to a loss of anamorphic power as a subject approaches the lens.[3] Because of the novelty of the new anamorphic process, early CinemaScope productions compensated for this aberration by avoiding tightly framed shots. As the anamorphic process became more popular, it became more problematic. Panavision invented a solution: adding a rotating lens element that moved in mechanical sync with the focus ring. This eliminated the distortion and allowed for natural close-up anamorphic photography. The Auto Panatar, released in 1958, was rapidly adopted, eventually making CinemaScope lenses obsolete. This innovation earned Panavision the first of its 15 Academy Awards for technical achievement.[3] Soon the screen credit "Filmed in Panavision" (as if Panavision itself were a widescreen format) began appearing on motion picture screen credits.
Since 1954, Panavision had been working on a new widescreen process commissioned by MGM.[16] The resulting system used a 65 mm film camera in conjunction with the APO Panatar lens, which was an integrated anamorphic lens (as opposed to a standard prime lens with an anamorphoser mounted on it). This created a 1.25x anamorphic squeeze factor.[17] Movies using the process had an astounding potential aspect ratio of 2.76:1 when exhibited with 70 mm anamorphic projection prints. Introduced as MGM Camera 65, the system was used on just a few films, the first of which was Raintree County (1956).[16] However, the film was released only in 35 mm anamorphic prints because the circuit of 70 mm theaters was booked with Around the World in Eighty Days (1956), shot with the competing, nonanamorphic Todd-AO system. In January 1959, the posters for the 70 mm release of Disney's Sleeping Beauty carried the notation "Process lenses by Panavision" next to the Super Technirama 70 logo. The first film to be presented in 70 mm anamorphic—Ben-Hur—was released by MGM in 1959 under the trade name MGM Camera 65.[16] Panavision also developed a nonanamorphic widescreen process called Super Panavision 70, which was essentially identical to Todd-AO. Super Panavision made its screen debut in 1959 with The Big Fisherman, released by Disney's Buena Vista division.
Cameras
By 1962, four of Panavision's founders had left the company to pursue private careers.[6] That year, MGM's Camera 65 production of Mutiny on the Bounty went so far over budget that the studio liquidated assets to cover its costs. As a result of this liquidation, Panavision acquired MGM's camera equipment division, as well as the rights to the Camera 65 system it had developed for MGM; the technology was renamed Ultra Panavision.[6] Only six more features were made with the system: It's a Mad, Mad, Mad, Mad World (1963), The Fall of the Roman Empire (1964), Battle of the Bulge (1965), The Greatest Story Ever Told (1965), The Hallelujah Trail (1965), and Khartoum (1966).[18] The system was revived in 2015 for Quentin Tarantino's The Hateful Eight. As 1.25× anamorphosers for 70 mm projectors have become rare, most of the 70 mm prints of these films still in circulation are designed for projection with non-anamorphic, spherical lenses. The result is a 2.20:1 aspect ratio, rather than the broader ratio originally intended.
Although Fox insisted on maintaining CinemaScope for a time, some actors disliked the system. For Fox's 1965 production Von Ryan's Express, Frank Sinatra reputedly demanded that Auto Panatar lenses be used. Such pressures led Fox to completely abandon CinemaScope for Auto Panatars that year; Von Ryan's Express was the studio's first picture with Panavision lenses.[19] To meet the extraordinary demand for Panavision projection lenses, Gottschalk had Bausch & Lomb CinemaScope lenses retrofitted into Panavision housings with a new astigmatic attachment, improving them greatly. This was revealed many years after Gottschalk's death; a lead designer from Bausch & Lomb, who had been involved with the original CinemaScope project, came to work as a designer for Panavision and—after opening some of the older lenses—figured out the secret.[4]
In the mid-1960s, Gottschalk altered Panavision's business model. The company now maintained its full inventory, making its lenses and the cameras it had acquired from MGM available only by rental.[20] This meant that equipment could be maintained, modified, and regularly updated by the company. When Panavision eventually brought its own camera designs to market, it was relatively unconstrained by retrofitting and manufacturing costs, as it was not directly competing on sales price. This allowed Panavision to build cameras to new standards of durability.[21]
The new business model required additional capital. To this end, the company was sold to Banner Productions in 1965, with Gottschalk remaining as president.[20] Panavision would soon expand into markets beyond Hollywood, eventually including New York, Europe, Australia, Hong Kong, and Southeast Asia.[5] Kinney National Company bought out Banner in 1968 and took over Warner Bros.-Seven Arts the following year, eventually renaming itself Warner Communications due to a financial scandal.[20] Kinney/Warner's financial resources made possible a massive expansion in Panavision's inventory, as well as substantial leaps in research and development.
During this period, the company's R&D department focused on retrofitting the industry standard 35 mm camera, the Mitchell BNC. The first cameras produced by Panavision were Mitchell cameras, and all standard 35mm cameras made by Panavision to this day are based on the Mitchell movement.[22]
The effort to develop a lighter, quieter camera with a reflex viewfinder led to the introduction of the Panavision Silent Reflex (PSR) in 1967.[12] The camera could provide a shutter angle of up to 200 degrees. Many refinements were made to the PSR during the first few years after its introduction, and it soon became one of the most popular studio cameras in the world.[5] Panavision also began manufacturing spherical lenses for 1.85:1 photography, garnering a significant share of the market.
In 1968, Panavision released a handheld 65 mm camera.[6] By that time, however, the much cheaper process of blowing up 35 mm anamorphic films to 70 mm—introduced with The Cardinal (1964)—had made 65 mm production virtually obsolete.[23] In 1970, the last two feature films shot entirely with Super Panavision were released: Song of Norway and Ryan's Daughter. In the decades since, only a handful of films have been shot in 65 mm.[24]
Birth of Panaflex
Albert Mayer led the next major project: the creation of a lightweight reflex camera adaptable to either handheld or studio conditions. After four years of development, the Panaflex debuted in 1972. A revolutionary camera that operated quietly, the Panaflex eliminated the need for a cumbersome sound blimp, and could synchronize handheld work. The Panaflex also included a digital electronic tachometer and magazine motors for the take-up reel.[25] Steven Spielberg's The Sugarland Express (1974) was the first motion picture filmed with the Panaflex.[26]
During the 1970s, the Panaflex line was updated and marketed in new incarnations: the Panaflex X, Panaflex Lightweight (for steadicam), the high-speed Panastar, Panaflex Gold, and Panaflex G2. Panavision came out with a direct competitor to Tiffen's Steadicam stabilizer, the Panaglide harness.[20] The Panacam, a video camera, was also brought out, though the company largely left the video field to others.
Robert Gottschalk died in 1982 at the age of 64. After Gottschalk's death, Warner Communications sold the company to a consortium headed by Ted Field,[20][27] John Farrand, and Alan Hirschfield. With new ownership came sweeping changes to the company, which had stagnated. Optics testing was computerized and, in 1986, the new Platinum model camera was introduced. The next year—responding to a perceived demand for the resurrection of the 65 mm camera—development began on a new model. The company was sold to Lee International PLC for $100 million in 1987, but financing was overextended and ownership reverted to the investment firm Warburg Pincus two years later.[20]
In 1989, the company brought out Primo, a new line of lenses. Designed with a consistent color match between all the different focal-length instruments in the line, these were also the sharpest lenses yet manufactured by Panavision. Six years later, Oscars were awarded to the company and to three of its employees for their work on the Primo 3:1 zoom lens: Iain Neil for the optical design, Rick Gelbard for the mechanical design, and Eric Dubberke for the lens's engineering. According to the AMPAS citation, "The high contrast and absence of flare, along with its ability to provide close focusing and to maintain constant image size while changing focus, make the Primo 3:1 Zoom Lens truly unique."[28] In 1991, the company released its new 65 mm technology, System 65,[12] though Arri had beaten it to market by two years with the Arriflex 765. The gauge was not widely readopted, and only two major Hollywood films were shot with the new 65 mm Panavision process: Far and Away (1992) and Kenneth Branagh's Hamlet (1996).
In 1992, Panavision launched a project to develop a camera that involved rethinking every aspect of the company's existing 35 mm system. Nolan Murdock and Albert Mayer Sr. headed up the design team.[25] The new Millennium camera, replacing the Platinum as the company's flagship, was introduced in 1997. The Millennium XL came to the market in 1999 and was led by Al Mayer, Jr. It soon established itself as Panavision’s new 35mm workhorse. The XL was the first product in Panavision history to win both an Academy Award and a Primetime Emmy Award within the first year of official release. The update to the XL, the XL2 was initially released in 2004.[26] .[29] The first feature films to use these latter two systems were, respectively, The Perfect Storm (2000) and Just Like Heaven (2005). The XL series not only had a much smaller camera body—making it suitable for studio, handheld, and steadicam work—but also marked the first significant change to the film transport mechanism in the camera since the Panaflex: two smaller sprocket drums for feed and take-up (a design similar to the Moviecam and subsequent Arricam) instead of one large drum to do both.[30] As of 2006, Panavision has no further plans to develop additional film camera models.[31]
Recent restructuring and acquisitions
In May 1997, Panavision announced it would be purchasing Visual Action Holdings PLC, a major film services group for $61m (£37.5m). The British-based company was formally known as Samuelson Group PLC. The company operated three rental depots in the UK and was main agent for Panavision in France and Australia. It also had smaller rental operations in New Zealand, Singapore, Malaysia, and Indonesia. Crucially, it controlled three Panavision agencies in the US cities of Atlanta, Chicago, and Dallas (acquired from Victor Duncan, Inc.). Panavision CEO William C Scott said, "This transaction provides Panavision with a strong platform on which to grow the international side of our business and also completes our company-controlled distribution system in the US. Additionally, we will immediately expand our presence in key Southeast Asia markets, where television and film activity are expect to grow rapidly. Overall, the transaction enables us to control a true worldwide distribution network for Panavision’s camera systems and related products, one of our most important strategic objectives."
Ronald Perelman's solely owned MacAndrews & Forbes Holdings (Mafco) acquired a majority interest in Panavision in 1998, via a Mafco subsidiary. After aborted attempts to create a film-style video camera in the 1970s and 1980s, Panavision joined the digital revolution in July 2000, establishing DHD Ventures in partnership with Sony. The new company's objective was to raise the quality of high definition digital video to the standards of top-level Hollywood motion-picture production.[32]
This cooperative venture was established, largely at the instigation of George Lucas, to serve his designs for the Star Wars prequels.[33] The collaboration resulted in the Sony HDW-F900 CineAlta HDCAM high definition video camera. Sony produced the electronics and a stand-alone version of the camera; Panavision supplied custom-designed high definition lenses, trademarked Primo Digital, and retrofitted the camera body to incorporate standard film camera accessories, facilitating the equipment's integration into existing crew equipment as a "digital cinema camera".[34] This Panavision HD-900F, was used in the making of Lucasfilm's Star Wars: Episode II – Attack of the Clones (2002), described as "the first digital major feature film".[32] Panavision's next step in the evolution of digital cinema cameras also involved collaboration between Sony and Panavision; this time, Panavision participated in all the stages of development. The aim was to create a system that could use the entire range of the company's 35 mm spherical lenses.
This led to the 2004 introduction of the Genesis HD—a full bandwidth (4:4:4) HD SDI camera with improved colorimetry- and sensitometry-related specs. Its Super 35 mm film–sized recording area made it focally compatible with regular 35 mm lenses, giving it a true 35 mm depth of field.[35][36] The camera's electronics—including its CCD (charge-coupled device) image sensor—and HDCAM SR record deck were manufactured by Sony. The chassis and mechanics were designed by a Panavision team led by Albert Mayer Jr., son of the Panaflex designer.[35] The Genesis was first used on Superman Returns (2006) followed soon after by Flyboys (2006);[37] But the comedy Scary Movie 4 (2006), shot afterward on a mixture of 35mm film and the Genesis, actually went into general release first because of the extensive visual effects work needed to complete both Flyboys and Superman Returns.[38] Subsequent to the completion of major design work on the Genesis, Panavision bought out Sony's 49 percent share of DHD Ventures and fully consolidated it in September 2004.[39]
During the same period, Panavision began acquiring related motion picture companies, including EFILM (acquired 2001; sold to Deluxe in full by 2004),[40] Technovision France (2004),[41] the motion picture camera-rental arm of the Canadian rental house William F. White International (2005),[42] the digital camera rental company Plus8Digital (2006),[43] the international lighting and equipment company AFM and the camera company One8Six (2006),[44] and the camera inventory of Joe Dunton & Company (2007).[45] On July 28, 2006, Mafco announced it was acquiring the remaining Panavision stock and returning the company to private status. A $345 million credit line from Bear Stearns and Credit Suisse was secured to finance the company's debt as well as to facilitate "global acquisitions."[46] That same year, Mafco acquired Deluxe Entertainment Services Group.[47]
In March 2010, citing a drop in production and difficulty servicing significant debt as a result of the 1998 Mafco transaction, shareholder MacAndrews & Forbes agreed to a debt restructuring arrangement with Panavision's creditors. Private equity firm Cerberus Capital was the lead investor in the deal, which involved a US$140 million reduction in debt and a US$40 million cash infusion. In return the majority shareholder Ronald Perelman was required to relinquish control of Panavision, and he no longer has any equity in the company.[48] In June 2013, its creditors sued over an unpaid debt of $1.7 million, threatening to dissolve the company if they win.[49]
Panavision 3D
Panavision 3D was a system for presenting 3-D film in a digital cinema. It was a passive stereoscopic 3D system that utilized spectral comb filters produced using thin-film optics technology. In such systems, the visible spectrum is broken into alternate bands of light that evenly span the entire visible spectrum.
In June 2012 the Panavision 3D system was discontinued by DVPO Theatrical, who marketed it on behalf of Panavision, citing "challenging global economic and 3D market conditions".[50]
See also
- Marketing brands for movies made with Panavision's anamorphic movie camera lenses:
- Super Panavision 70 for movies made between 1959 and 1983
- Ultra Panavision 70 for movies made from 1957 to 1966 (and since 2015)
- Panavision cameras
- List of film formats
- PV mount
Notes
- ^ Thursby, Keith (2009-08-31). "Richard Moore dies at 83; cinematographer and co-founder of Panavision". Los Angeles Times. Retrieved 2009-09-06.
- ^ Samuelson, David W. Panaflex Users' Manual. Focal Press, 1990. ISBN 0-240-80267-5.
- ^ a b c d e Roudebush, James. "Filmed in Panavision: The Ultimate Wide Screen Experience." Secrets of Home Theater and High Fidelity vol. 2, no. 1 (HomeTheaterHiFi.com). January 1995. Retrieved on 2007-01-19.
- ^ a b c Samuelson, David W. "Golden Years." American Cinematographer, September 2003, pp. 70–77.
- ^ a b c Henderson, Scott. "The Panavision Story." American Cinematographer, April 1977.
- ^ a b c d e f g h Bijl, Adriaan. "The Importance of Panavision." The 70mm Newsletter no. 67 (in70mm.com). March 2002. Retrieved on 2007-01-19.
- ^ Hart, Martin. "A Little Pre-history." WidescreenMuseum.com. Retrieved on 2007-01-19.
- ^ Pryor, Thomas M. "Cine-Miracle Joins Big Screen's Big Parade." New York Times 1955-07-13. Retrieved on 2007-01-19.
- ^ Gray, Peter. "CinemaScope, A Concise History." Archived 2009-05-11 at the Wayback Machine. Retrieved on 2008-07-06
- ^ Wallin, Walter. "Anamorphosing System (U.S. patent no. 2890622)" FreePatentsOnline.com. Retrieved on 2009-09-25.
- ^ The Panatar name was in response to the Bausch & Lomb lens called the Baltar. Gray, Peter. History of CinemaScope Archived 2009-05-11 at the Wayback Machine, 2003. Retrieved 2007-06-14.
- ^ a b c "History" (official company history and timeline). Archived 2007-02-13 at the Wayback Machine Panavision.com. Retrieved on 2007-01-19.
- ^ Super Panatar Instruction Manual. Panavision, 1954. HTML transcription by WidescreenMuseum.com. Retrieved on 2007-01-19.
- ^ Ultra Panatar Instruction Manual. Panavision, 1955. HTML transcription by WidescreenMuseum.com. Retrieved on 2007-01-19.
- ^ Cook, David A. A History of Narrative Film. Norton & Company, 1990. ISBN 0-393-95553-2.
- ^ a b c Hart, Martin. "Solving The Mysteries of MGM Camera 65 and Ultra Panavision 70." WidescreenMuseum.com. September 2002. Retrieved on 2007-01-19.
- ^ Hart, Martin. MGM Camera 65 Circa 1959 Anamorphic 70mm Print. WidescreenMuseum.com. Retrieved on 2007-01-19
- ^ Hart, Martin. "Cinerama Single Film Presentations." WidescreenMuseum.com. Retrieved on 2007-01-20.
- ^ "Honoring Our Own" Archived 2006-10-17 at the Wayback Machine. Panavision.com. Retrieved on 2007-01-19.
- ^ a b c d e f Bijl, Adriaan. "The Importance of Panavision: Diffusion Phase". in70mm.com. Retrieved on 2007-01-20.
- ^ Panavision Inc. Panavision 8-K SEC Filing. SECInfo.com. 2004-08-08; "Panavision". Encyclopedia of Company Histories/Answers.com. Both retrieved on 2007-01-20.
- ^ Dodge, Sam. "Mitchell 390". Retrieved 12 May 2014.
- ^ Loring, Charles. "Breakthrough in 35mm-to-70mm Print-Up Process". American Cinematographer, April 1964.
- ^ Hart, Martin. "Super Panavision Filmography" Archived 2007-02-10 at the Wayback Machine. WidescreenMuseum.com. Retrieved on 2007-01-19; Hauerslev, Thomas. "Super Panavision 70" Archived 2007-02-10 at the Wayback Machine. in70mm.com. Retrieved on 2007-01-06.
- ^ a b Probst, Christopher. "A Camera for the 21st century." American Cinematographer, March 1999, pp. 201–211.
- ^ Brode, Douglas. The Films of Steven Spielberg. Citadel Press, 1995: p. 39. ISBN 0-8065-1540-6.
- ^ Slide, Anthony. "Panavision," in The American Film Industry: A Historical Dictionary. Limelight Editions, 1990: pp. 253–254. ISBN 0-87910-139-3.
- ^ 1995 (68th Academy Awards)—Scientific and Engineering Award—Lenses and Filters. Academy of Motion Picture Arts and Sciences. Retrieved on 2007-10-09. Archived August 27, 2007, at the Wayback Machine
- ^ Kaczek, Frédéric-Gérard. "Panavision." European Federation of Cinematographers (Imago.org). Retrieved on 2007-01-20. Archived August 23, 2007, at the Wayback Machine
- ^ Probst, Christopher. "Dawn of a New Millennium." American Cinematographer, February 2005, pp. 80–82.
- ^ Kirsner, Scott. "Studios Shift to Digital Movies, but Not Without Resistance", The New York Times, 2006-07-24. Retrieved 2007-10-13.
- ^ a b Panavision Inc. Panavision 10-K SEC Filing for 2002. Archived 2007-09-30 at the Wayback Machine Edgar-Online.com. Retrieved on 2007-01-31.
- ^ Hearn, Marcus. The Cinema of George Lucas. Abrams, 2005: p. 222. ISBN 0-8109-4968-7.
- ^ "Panavision Makes Major Purchase of Sony 24p CineAlta High Definition Camcorders" Archived 2007-09-28 at the Wayback Machine. HDTVMagazine.com. Retrieved on 2007-01-20.
- ^ a b Holben, Jay. "Let There Be Digital: Panavision Unveils Digital Cinematography Camera." American Cinematographer, September 2004, pp. 94–98.
- ^ Lazotte, Suzanne. "Panavision Genesis Super 35 Digital Cinematography Camera System." Panavision.com. Retrieved on 2007-01-20. Archived February 28, 2007, at the Wayback Machine
- ^ Birchard, Robert S. "World War I Flying Aces." American Cinematographer (ASCMag.com). October 2006. Retrieved on 2007-01-31. Archived September 27, 2007, at the Wayback Machine
- ^ Scary Movie 4 (release dates); Flyboys (release dates). IMDb.com. Retrieved on 2007-02-07.
- ^ Panavision Inc. Panavision 10-K SEC Filing for 2005. SECInfo.com. Retrieved on 2007-01-31.
- ^ "Panavision Sells Interest in EFILM to Deluxe Labs" (press release). Archived 2006-10-22 at the Wayback Machine Panavision.com. 2004-08-09. Retrieved on 2007-01-19.
- ^ "Panavision Purchases Technovision France" (press release). Archived 2006-10-22 at the Wayback Machine Panavision.com. 2004-08-16. Retrieved on 2007-01-19.
- ^ "Panavision Canada Acquires Camera Assets of William F. White International Inc." (press release). Archived 2006-10-22 at the Wayback Machine Panavision.com. 2005-01-04. Retrieved on 2007-01-17.
- ^ "Panavision Acquires Plus 8 Digital" (press release). Archived 2006-10-22 at the Wayback Machine Panavision.com. 2006-10-02. Retrieved on 2007-01-17.
- ^ "Panavision Enters Into Agreement to Acquire AFM Group." PRNewswire.co.uk. 2006-11-07. Retrieved on 2007-01-17.
- ^ Giardina, Carolyn. "Panavision reels in Joe Dunton." The Hollywood Reporter. 2007-08-15. Retrieved on 2007-08-31.
- ^ Zeitchik, Steven. "Panavision Hones Its Focus." Variety.com. 2006-04-18. Retrieved on 2007-01-17.
- ^ "Deluxe" (corporate holdings description). Archived 2006-12-24 at the Wayback Machine MacAndrewsandForbes.com. Retrieved on 2007-01-17.
- ^ Verrier, Richard. Los Angeles Times. "Creditors set to gain Panavision". 2 March 2010.
- ^ Panavision sued over unpaid loans
- ^ "Archived copy". Archived from the original on 2012-04-07. Retrieved 2012-04-03.
{{cite web}}
: Unknown parameter|deadurl=
ignored (|url-status=
suggested) (help)CS1 maint: archived copy as title (link)
External links
- Official website
- Panavision's Future is in Need of Focus by Richard Verrier, The Los Angeles Times, July 20, 2009
Video clips
- 1953 establishments in California
- American companies established in 1953
- American inventions
- Cinematography
- Entertainment companies based in California
- Manufacturing companies based in Los Angeles
- Manufacturing companies established in 1953
- Media companies established in 1953
- Movie camera manufacturers
- Panavision