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An LED-based ring flash

A ring flash is a photographic flash that surrounds a camera lens with a circular source of light. Unlike conventional flashes which provide a point light source, a ring flash is intended to illuminate a subject with minimal shadows by closely and evenly surrounding the optical axis of the camera lens. This makes it a popular choice for several types of photography, including macro, portrait, and fashion photography. Closely related to the ring flash is the continuous ring light, which has a similar annular shape surrounding the lens; in contrast to the ring flash, which provides an intense light for a short duration, a ring light produces constant illumination at lower intensity for video recording or to see a live preview before capturing photographs.

Ring lights and flashes vary in diameter and thickness, as well as the amount, color temperature, and quality (imperfectly indicated by color rendering index, or CRI) of light output. Some ring lights allow for the adjustment of brightness and color temperature.

History

[edit]

The ring flash was first invented by Lester A. Dine in 1952 for use in dental photography.[1]

Continuous ring light

[edit]

Continuous ring lights are popular for improving picture quality on video calls, social media selfies, and video blogging.[2] For example, Cornell University offers a photo kiosk equipped with a continuous ring light and iPad to take social media profile pictures for students, faculty, staff, and alumni.[3]

Modern continuous ring lights frequently use light-emitting diodes (LEDs) because they are bright, energy-efficient, and capable of producing quality light.[4] Earlier continuous ring light designs used fluorescent tubes, bent into appropriate shapes, to avoid casting heat on the subject.[5]: 189 

Construction

[edit]
Samigon ring flash unit attached to lens of single-lens reflex camera

Ring flashes may be divided into two types: scientific or macro ring flashes, where the flash tubes are close to the lens, and portrait or fashion ring flashes, where the diameter of the ring is approximately 1 ft (0.30 m), which casts a wider light than the macro ring flash.[6]: 24  A macro ring flash typically consists of a power and control unit mounted on a hot shoe, and a circular flash unit mounted on the front of a lens. Power is supplied by batteries in the shoe-mount unit and a cable conveys power and control signals to the circular flash unit. In larger ring flashes, which are typically used for fashion photography, power may be supplied by an external battery or line power supply, or the power supply and light may be combined in one unit.[7]

Light is usually generated by one or more flash tubes or LEDs. In some flash units with multiple flash tubes, each flash tube can be independently controlled, which allows the photographer to vary the contrast or direction of the illumination. Some ring flashes have focusing lenses that result in ideal light distribution at a particular distance from the subject.

Other devices are available that project light in a fashion similar to ring flashes. For example, flash diffusers have no light source of their own, but instead mount in front of a conventional flash unit and transmit the light to a ring-shaped diffuser at the front of the lens. Some other passive light modifiers can shape the light from a conventional shoe-mounted flash into that of a ring flash. These adapters use diffusers and reflectors to "bend" the light in an arc around the lens axis and then emit the light from that arc. These devices maintain any through-the-lens (TTL) lighting functions that are shared by the camera and flash because the timing of the light has not changed.

With some specialized lenses and cameras, most notably the Medical-Nikkor and Yashica Dental Eye, the ringlight is integrated into the lens and exposure is set automatically according to film speed and focusing distance.[8][9] As their names imply, these were intended for medical uses and offered simplified controls to facilitate photography.

Applications

[edit]

Ring flashes are commonly used in macro (close-up) photography. When the subject is very close to the camera, the distance of the flash from the optical axis becomes significant. For objects close to the camera, the size of the ring flash is significant and so the light encounters the subject from many angles in the same way that it does with a conventional flash with soft box. This has the effect of further softening any shadows.

Ring flashes are popular in portrait and fashion photography because they soften the shadows created by other, off-axis lights, and create interesting circular highlights in a model's eyes. Ring Lights are also often used in the beauty and cosmetic industry, mostly by make-up artists.[citation needed] This is due to the lightweight and compact features of a ring light that make it suitable for freelance beauty and make-up artists.[citation needed]

Ring flashes became more popular during the COVID-19 pandemic due to the growth of social media, specifically TikTok. Users purchased and used these ring lights to improve their lighting while allowing them to attach their phones between the lights.[10] Their price varies from $10 to $100, and people tend to purchase them online.[11]

Ring flashes are also used in microscopy. The ring flash (usually LED[citation needed]) is mounted on the objective lens of an optical microscope. The main use of this tool is the photographing of microscopic organisms[citation needed]. A ring flash works on a microscope in much the same way as it does on a camera; it reduces reflections while bathing the subject in light.

  • A closeup image of an eye showing reflected ring flash, a common effect in fashion photography
    A closeup image of an eye showing reflected ring flash, a common effect in fashion photography
  • Pentax AF160FC ring flash and Pentax K20D camera with macro lens mounted under tripod for photographing ants
    Pentax AF160FC ring flash and Pentax K20D camera with macro lens mounted under tripod for photographing ants
  • A model photographed with a ring flash
    A model photographed with a ring flash

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Ring flash

View on Grokipedia
from Grokipedia
A ring flash is a circular photographic flash unit designed to mount directly around the camera lens, emitting light from all directions to provide even, diffused illumination with minimal shadows, particularly effective for close-up and macro subjects.[1] Invented by Lester A. Dine in 1952 specifically for dental photography to illuminate intraoral details without casting harsh shadows, it revolutionized clinical imaging by allowing clear, color-accurate documentation of teeth and procedures.[2] Originally developed as a tool for medical and scientific applications, the ring flash gained widespread adoption in the 1980s and 1990s for fashion and beauty photography, where its unique circular catchlights in subjects' eyes—known as "ring light eyes"—created a distinctive, glamorous aesthetic.[3] Today, it remains popular in macro photography for insects and small objects, forensic documentation for precise lighting without distortion, and portraiture as a fill light to soften contrasts and enhance skin tones.[1][3] Key advantages of the ring flash include its coaxial alignment with the lens, which eliminates off-axis shadows and flare while delivering shadowless lighting ideal for reflective surfaces like jewelry or wet subjects in underwater photography.[1][4] However, it can produce a flat, low-contrast look if used as the primary light source, often requiring supplemental lighting for depth, and its close proximity to the lens may cause vignetting with wide-angle setups.[3] Modern ring flashes, such as those from manufacturers like Godox, are battery-powered, TTL-compatible, and adaptable to various camera systems, making them versatile tools in both professional and amateur workflows.[5]

Fundamentals

Definition and Purpose

A ring flash is a circular flash unit that mounts around the camera lens to deliver uniform, shadowless illumination from all directions surrounding the subject.[1][6] This design ensures even lighting coverage, particularly effective for small-scale subjects where light must envelop the scene without directional bias.[3] The primary purpose of a ring flash is to eliminate harsh shadows and hotspots in close-range photography by mimicking omnidirectional light, allowing clear visualization of details on small subjects without interference from the lens barrel.[1][6] It emerged as a practical solution for confined spaces, where conventional off-camera flashes would cause obstructions or uneven exposure, such as in macro and dental applications.[7][3] In operation, the ring flash synchronizes with the camera's shutter to emit a short burst of intense light, powered electronically through batteries or external sources for portable use.[6] This brief illumination provides the necessary exposure for high-detail imaging while maintaining the device's compact form.[1]

Optical Principles

A ring flash employs a circular arrangement of flash elements encircling the camera lens, which generates radial light rays emanating from 360 degrees around the optical axis. This geometry causes the light to converge on the subject from multiple directions simultaneously, yielding flat and even illumination across the surface while substantially reducing shadow formation compared to off-axis point sources.[3] A distinctive optical effect of the ring flash arises from its annular light source, producing a "doughnut" or "ring" highlight in reflective surfaces such as human eyes or water droplets. This manifests as a bright circular rim surrounding a darker central area, attributable to the absence of direct emission from the lens-aligned center of the ring.[8] Light intensity from the ring flash adheres to the inverse square law, expressed as $ I = \frac{P}{4\pi d^2} $, where $ I $ is the intensity, $ P $ is the power output, and $ d $ is the distance from the source to the subject. In ring flash applications, particularly close-up scenarios, this law is mitigated by the source's extended geometry and minimal separation from the subject, resulting in lower variance in illumination intensity across the field compared to discrete point sources.[9] The ring flash's distributed emission diminishes specular highlights relative to point sources by broadening the angles of incidence on the subject, thereby favoring diffuse reflection and enhanced light scattering for a softer overall appearance.[10]

History

Invention

The ring flash was invented by Lester A. Dine, a dental photographer, in 1952 to address the challenges of intraoral dental imaging.[2][4] Traditional flash units at the time often created obstructions and uneven shadows in the confined space of a patient's mouth, making it difficult to achieve clear, detailed photographs of teeth and oral structures.[11] Dine's innovation stemmed from the need for shadowless lighting that could illuminate hard-to-reach areas without casting distortions, enabling precise documentation for dental diagnosis and treatment planning.[12] Dine filed for a U.S. patent on August 9, 1952, which was granted on June 29, 1954, under patent number US2682603A, titled "Portable Photographic Light Unit."[13] Co-invented with Edgar S. Lemmey, the patent described a novel circular design using a gaseous-discharge flash tube arranged concentrically around the camera lens to provide uniform, shadow-free illumination for close-up photography.[13] This arrangement allowed the light source to encircle the lens completely, directing even illumination directly into the subject without off-axis shadows.[13] The initial prototype was hand-built by Dine using a xenon flash tube bent into a ring shape, mounted on a camera adapter for portability.[13] It was powered by early battery systems or connected to a standard flash gun, emphasizing compactness and ease of use in clinical settings.[13] This design laid the foundation for subsequent developments in medical photography.

Evolution and Adoption

Following its invention, the ring flash saw commercialization in the 1950s by the Dine Corporation under the Ringlight brand, initially targeting dental applications but quickly expanding to broader medical photography for its ability to provide even, shadowless illumination in close-up clinical documentation.[2][14] By the 1960s, this adaptation facilitated standardized imaging in various medical fields, enhancing precision in procedures like surgical and dermatological recording without casting obstructive shadows.[14] In the 1970s and 1980s, ring flashes integrated more seamlessly with single-lens reflex (SLR) cameras, enabling portable use beyond clinical settings and gaining traction in fashion and beauty photography. Pioneering photographers like Helmut Newton popularized the device for its signature flat, even lighting that minimized shadows and accentuated textures, influencing a surge in its adoption for high-contrast editorial work during this era.[15][16] The 1990s and 2000s marked a leap in usability with the introduction of through-the-lens (TTL) metering in ring flashes by major manufacturers, including Canon's Macro Ring Lite MR-14EX in 1995 and Nikon's SB-21A in 1986, which automated exposure for more intuitive operation.[17][18] This advancement, coupled with the growing popularity of macro photography, broadened its appeal to amateur and professional nature shooters seeking uniform close-range lighting. A key milestone came in 2007 with the Ray Flash adapter, which allowed standard speedlights to mimic ring flash effects affordably, democratizing access without dedicated hardware.[19] From the 2010s onward, ring lighting shifted toward LED-based continuous sources optimized for video production, driven by the rise of vlogging and social media content creation, while strobe versions persisted for still photography's high-intensity needs.[20] Integration with digital mirrorless systems further refined TTL compatibility, supporting wireless control and compact designs. This evolution influenced consumer technology, inspiring clip-on LED ring lights for smartphones that replicate the even illumination for selfies and mobile video, extending the tool's reach to everyday users.[21]

Design and Construction

Key Components

A traditional ring flash unit consists of several essential physical and electrical components designed to produce even, shadowless illumination around the camera lens. The core light-emitting element is the flash tube, typically a circular xenon tube or an array of LEDs arranged in a ring shape with a diameter ranging from 50 to 100 mm to fully encircle the lens front element. In xenon-based models, such as the Canon Macro Ring Lite MR-14EX II, this features twin circular flash tubes that can fire independently or together, enabling adjustable ratios of light output from the left and right sides of the ring for creative control.[22][23] To optimize light direction and quality, the unit incorporates a reflector and diffuser. The internal parabolic reflector focuses the light output forward toward the subject, minimizing spillover and enhancing efficiency. A frosted or milky-white diffuser covers the flash tube, softening the harsh xenon burst to reduce specular highlights and create smoother illumination, as seen in accessories like the Nikon SW-12 diffuser paired with the SB-R200 flash heads in the R1C1 system.[24][25] The power supply system powers these elements through a combination of batteries and energy storage. Most units use rechargeable battery packs, such as four AA NiMH or lithium-ion cells in the controller, which charge a high-voltage capacitor to store energy for rapid discharge into the flash tube, enabling short recycle times of around 5-6 seconds at full power. External synchronization occurs via the camera's hot shoe or dedicated packs like Canon's CP-E4 for extended shooting.[22][26] Mounting the unit securely to the lens is achieved via an adapter ring system compatible with standard filter threads, typically ranging from 52 mm to 77 mm, allowing attachment to various macro lenses without obstructing the view. Electrical connectivity includes a coiled sync cord for wired models like the Canon MR-14EX II or wireless triggers in systems like Nikon's R1C1, ensuring precise timing with the camera shutter.[22][27] User interaction is facilitated by a control interface on the dedicated controller unit, which mounts to the camera's hot shoe. This includes manual power adjustment dials for output levels from full to 1/128 in fractional stops, as well as TTL (Through-The-Lens) compatibility for automatic exposure metering and adjustments based on camera feedback. Additional features may include ratio controls for dual-tube models and LCD displays for monitoring settings.[22][25]

Types and Variations

Ring flashes are primarily categorized as either strobe-based or continuous light sources. Traditional strobe ring flashes emit a short burst of high-intensity light, ideal for freezing motion in still photography, with typical guide numbers ranging from 10 to 14 meters at ISO 100 when both flash tubes are used, as seen in models like the Canon Macro Ring Lite MR-14EX II.[28] In contrast, modern continuous ring lights, often using LED arrays, provide steady illumination suitable for video recording and live previewing, such as the Godox Ring72 Macro LED Ring Light, which outputs constant light without the need for flash synchronization.[29] Another key distinction lies between dedicated ring flash units and adapter-based systems. Dedicated units, like the Canon MR-14EX II, integrate the ring light directly with the camera's hot shoe and lens mount, offering seamless TTL compatibility and built-in controls for precise exposure.[30] Adapter systems, such as the Ray Flash, convert standard speedlight flashes into ring configurations by attaching a circular diffuser around the lens, providing a cost-effective alternative but requiring manual adjustments for power and sync.[31] Specialized variants adapt ring flashes for niche requirements. Macro ring flashes often include interchangeable adapter rings to fit various lens diameters, ensuring shadowless illumination for close-up subjects like insects or jewelry, as exemplified by the Godox MF-R76 TTL Macro Flash with adapters from 49mm to 77mm.[32] Underwater versions feature sealed, waterproof housings for submersion, such as the SeaFrogs SL-108, which combines 2500-lumen flash output with 1200-lumen continuous mode for marine macro photography.[33] High-power models, like the Flashpoint R1200 Ring Flash Head, deliver up to 1200Ws for broader subject coverage in portraiture, supporting larger light modifiers for even illumination on faces or full figures.[34] Size variations influence light distribution and usability, with smaller rings around 40-60mm inner diameter suited for compact macro setups on lenses like 50mm primes, minimizing bulk while focusing light tightly on subjects. Larger variants, up to 150mm or more, expand coverage for portraits, reducing hotspots but sacrificing portability, as in studio-oriented units that prioritize wraparound lighting over handheld convenience.[35] Contemporary hybrid designs combine strobe and continuous capabilities with advanced features like TTL metering and modeling lights. For instance, the Canon MR-14EX II incorporates LED modeling lamps for real-time exposure preview, alongside E-TTL flash control for automatic adjustments. Similarly, the MEKE MK-14EXT-C provides flash bursts with LED focusing lamps for real-time preview in an E-TTL compatible ring.[36]

Applications

In Photography

Ring flashes are particularly valued in photography for delivering even, omnidirectional illumination that minimizes shadows, making them a go-to tool for genres requiring precise and uniform lighting.[37] In macro and close-up photography, they are ideal for capturing intricate details of subjects such as insects, flowers, or small products by encircling the lens to provide shadow-free fill light. The standard technique positions the subject at a 1:1 magnification ratio with a macro lens, allowing the ring flash to illuminate from directly in front without directional casting that could obscure fine textures.[38] This approach freezes motion in handheld shots, enhancing sharpness in dynamic outdoor environments like breezy fields or gardens.[38] For portraiture, ring flashes produce a signature aesthetic through circular catchlights in the eyes, often called "ring eyes," which add a distinctive sparkle and draw attention to the subject's gaze.[39] They excel in beauty and fashion photography by evenly illuminating skin tones, reducing unflattering highlights and shadows on the face, especially in head-on compositions. Photographers frequently pair them with off-camera modifiers, such as diffusers or gels, to soften the output and blend with ambient light for a more natural look.[16] This setup is particularly effective for shoulders-up portraits, where the even coverage prevents overexposure on one side while maintaining detail across contours.[39] In product and still life photography, ring flashes provide consistent, glare-reducing light for reflective surfaces like jewelry, glass, or metallic objects, ensuring highlights are controlled and colors appear true-to-life.[16] The on-axis positioning creates a uniform wraparound effect that highlights textures without hotspots, making it suitable for e-commerce or catalog shoots where symmetry is key.[37] Key techniques for ring flash use include respecting the camera's flash sync speed, commonly limited to 1/200 second on DSLRs and mirrorless systems, to avoid banding or incomplete exposure.[40] Power output can be dialed down for subtle ambient fill, blending flash with natural light, while adding diffusers or adapters softens the harshness for more flattering results across all genres.[16] These flashes integrate seamlessly with macro lenses, such as Canon's EF 100mm f/2.8L Macro IS USM or Nikon's AF-S VR Micro-Nikkor 105mm f/2.8G IF-ED, via dedicated adapters.[41] Examples include Canon's Macro Ring Lite MR-14EX II for EOS systems and third-party options like the Neewer RF1 or Godox MF-R76, which support both Canon and Nikon mounts for versatile compatibility.[8]

In Specialized Fields

Ring flash finds extensive use in medical and dental fields, particularly for intraoral examinations where it provides shadow-free illumination of teeth and gums. Originally developed for these purposes, the device mounts around the camera lens to deliver even, flat lighting that minimizes reflections and enhances detail in confined spaces.[42][43][44] In scientific imaging, ring flash aids forensic documentation by providing uniform light for evidence capture at various scales, reducing shadows on surfaces like fingerprints or tool marks. In biology, it attaches to microscopes for close-up specimen photography, offering consistent illumination that highlights fine structures without distortion.[45][46][47] Underwater photography employs sealed ring flash housings for macro shots of marine life, where the close-proximity light source illuminates subjects evenly while minimizing backscatter from suspended particles in murky conditions.[4][48] In industrial applications, ring flash supports quality control by delivering shadowless lighting for inspecting small parts in manufacturing, ensuring clear visualization of defects or features.[49] Case studies illustrate its specialized role; in ophthalmology, ring flash enables detailed eye exams by providing diffuse light for external ocular photography, capturing corneal and periorbital details with minimal glare. In veterinary dentistry, it facilitates animal oral work by offering 360-degree illumination inside the mouth for accurate documentation of dental structures.[42][50][51]

Advantages and Limitations

Benefits

Ring flashes provide 360-degree illumination around the lens, effectively eliminating shadows on subjects, particularly in close-up scenarios where traditional side lighting would cast unwanted obstructions. This shadowless effect is especially valuable for illuminating small or detailed subjects without the need for multiple light sources.[39][52] The even distribution of light from a ring flash minimizes contrast and hotspots, resulting in smooth illumination that preserves natural textures and tones, such as skin in portraits or fine details in macro photography. This quality enhances overall image clarity by avoiding overexposed areas while maintaining balanced exposure across the subject.[16][53] Due to their lens-mounted design, ring flashes offer a compact and portable solution that eliminates the requirement for external stands or brackets, making them highly suitable for fieldwork and on-location shooting. This integrated form factor allows photographers to maintain mobility without compromising lighting consistency.[54] Ring flashes excel in versatility for tight or confined spaces, such as dental procedures or underwater environments, where their close-proximity lighting illuminates subjects evenly without the bulk of separate strobes. In these applications, the design facilitates access to hard-to-reach areas while providing reliable, shadow-free coverage.[55][7] Aesthetically, ring flashes produce distinctive ring-shaped specular highlights, often visible as unique catchlights in eyes or reflective surfaces, which add a creative and eye-catching flair to images in portrait and fashion photography. This signature effect allows for stylized results that emphasize subject focus and visual interest.[56][44]

Drawbacks

Ring flashes can produce an unnatural appearance in images due to their even, shadowless illumination, which often results in flat lighting that makes subjects appear two-dimensional or lifeless.[52] This effect stems from the circular light distribution centered on the lens axis, lacking the depth-creating shadows provided by off-axis lighting sources. Additionally, the prominent doughnut-shaped catchlights in subjects' eyes are frequently viewed as unflattering or unnatural, contributing to a stylized but sometimes eerie aesthetic that not all photographers prefer.[8][57] The power output of ring flashes is generally limited compared to standard speedlights, with guide numbers typically ranging from 10 to 20 meters at ISO 100, restricting their effective range to close-up scenarios and making them unsuitable for illuminating larger subjects or greater distances.[58][59] For instance, models like the Godox MF-R76 achieve a guide number of 14 meters, far below the 30-60 meters common in conventional flashes, which limits versatility in varied shooting conditions.[60] High-quality ring flash units often come at a significant cost, with prices exceeding $200 for professional-grade options, such as the Godox R200 kit at around $249 or the Godox MF-R76 at $179, potentially deterring casual users.[61][62] Furthermore, compatibility issues arise with non-dedicated setups, as ring flashes require specific adapters for certain lenses and preclude the use of lens hoods or filters, complicating integration into existing gear workflows.[61] Ring flashes, being strobe lights with brief flash durations, do not generate significant heat near the subject. Battery-powered models typically provide 100 to 1500 flashes per charge, depending on the unit and settings, which may limit extended shooting sessions without recharging.[63][64] Large ring flash designs can lead to vignetting or mechanical interference, especially with wide-angle lenses, as the ring's size may obstruct peripheral light paths or physically conflict with the lens barrel, reducing image quality at wider focal lengths.[65][66] Ring flashes, particularly those employing LED technology, can cause temporary eye strain due to high brightness, blue light exposure, and potential LED flickering in modeling or continuous modes, leading to symptoms like dry eyes, headaches, blurred vision, and discomfort, especially with prolonged direct exposure or close positioning. However, authoritative sources state there is no scientific evidence that blue light from ring flashes or similar LED sources causes permanent eye damage, such as retinal harm or age-related macular degeneration, from typical use.[67][68]

References

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  2. Dine Corp.: Home - Clinical Photography Accessories
  3. Ring Flash Photography - Visual Education
  4. https://www.slrlounge.com/godox-r200-ring-flash/
  5. Ring Flashes
  6. Flash Systems for Dental Photography - Spear Education
  7. The best ring flash for macro photography in 2025
  8. How does the inverse square law relate to the softness of light for ...
  9. Lighting 102: Controlling Specular Highlights - Strobist
  10. Using a ring-flash for underwater photography
  11. The invention of ring flash - RingFlash Resource
  12. The History of Dental Photography - Dine Corp.
  13. https://patents.google.com/patent/US2682603A/en
  14. Ring flashes in macro photography: soft, shadowless light
  15. Photography: Helmut Newton - Pattaya Mail
  16. What Is Ring Flash Used For? Advice From a Decade of Using Ring ...
  17. Canon Macro Ring Lite MR-14EX Flash Review
  18. Phoenix Dedicated TTL Ring Flash - Shutterbug.com
  19. Full Review: Ray Flash Ring Flash Adapter - Strobist
  20. What is a ring light: Quarantine hit for videos - CNBC
  21. How to Use a Ring Light for Better Portrait Photography - MasterClass
  22. Canon Support for Macro Ring Lite MR-14EX II | Canon U.S.A., Inc.
  23. Ring-Flash Lamp for shadow-less Photography 600ws Flashtube
  24. [PDF] User guide ProRing
  25. [PDF] R1C1 R1 SU-800 SB-R200
  26. https://www.kentfaith.com/blog/article_camera-flash-how-it-works_23942
  27. https://www.nikonusa.com/p/r1c1-wireless-close-up-speedlight-system/4803/overview
  28. Canon Macro Ring Lite MR-14EX II Flash Review
  29. Compare Canon MR-14EX II Macro Ring Lite vs Godox Ring72 ...
  30. https://www.usa.canon.com/shop/p/macro-ring-lite-mr-14ex-ii
  31. Ray Flash: The Ring Flash Adapter - Digital Photography School
  32. Godox MF-R76 TTL Macro Flash for Canon/Nikon/Sony
  33. Seafrogs SL-108 Underwater Macro Ring Flash Light for ... - eBay
  34. Flashpoint R1200 Ring Flash Head for the XPLOR Power 1200 Pro
  35. Photography Ring Flash - Amazon.com
  36. Amazon.com : MEKE MK-14EXT-C E-TTL Macro LED Ring Flash ...
  37. 7 Creative Ways to Use A Ring Flash - Digital Photography School
  38. Lighting for Close-Up, Product and Macro Photography
  39. What are the advantages of using a ring flash for portraits?
  40. What is Flash Sync Speed by SLR Lounge
  41. Macro flash for close-up shots - Canon Central and North Africa
  42. [PDF] Tutorial: External Ocular Photography - PJ Saine
  43. https://nissindigital.us/pages/nissin-mf18-ring-flash-for-dental-photography-dentistry-photo-applications
  44. https://www.kentfaith.com/blog/article_what-is-the-ring-flash-used-for_25445
  45. [PDF] Standard Guide for Crime Scene Photography
  46. Are ring flashes useful for cases other than macro photography?
  47. [PDF] Guidance on Photographing specimens in natural history collections
  48. Saga Fiber Optic Macro Ring Flash for Sea & Sea YS-D1/D2/D2J ...
  49. United States Photographic LED Ring Flash Market By Application ...
  50. Incorporating Oral Photography and Endoscopy into the Equine ...
  51. Photo-intensive reports create impact, value in dental care - DVM360
  52. https://www.kentfaith.com/blog/article_what-is-ring-flash-macro-photography_25537
  53. How to Use a Ring Light for Perfect Lighting Every Time
  54. Advantages of a Ring Flash - Issuu
  55. Ring Flash Underwater Photography - DivePhotoGuide
  56. The Phoblographer's Introduction to Ring Flash
  57. Ring Flash for macro and other uses - Cambridge in Colour
  58. godox macro ring flash mf-r76 review
  59. T10 Ring Flash 1 – Olympus OM flashphoto group - Alan Wood's
  60. https://www.kentfaith.com/blog/article_how-bright-is-a-camera-flash_24067
  61. All About Ring Flash - The Photo Video Guy
  62. https://www.districtcamera.com/collections/macro-ring-flashes
  63. NEEWER RF1 TTL Marco Ring Flash for Canon/Nikon/Sony
  64. Years ago, I purchased a Miele Ring Flash. It was paired very nicely ...
  65. Image vignetting when using flash - Support Articles
  66. Should You Be Worried About Blue Light?
  67. Can a Flashlight Cause Eye Damage?
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