> For the complete documentation index, see [llms.txt](https://blair-neal.gitbook.io/survey-of-alternative-displays/llms.txt). Markdown versions of documentation pages are available by appending `.md` to page URLs; this page is available as [Markdown](https://blair-neal.gitbook.io/survey-of-alternative-displays/appendix/acknowledgements-and-additional-references.md).

# Acknowledgements and Additional References

## Acknowledgements <a href="#e8aa" id="e8aa"></a>

Thanks to a ton of people for taking the time to read this and give me comments and extra content, it is truly appreciated. A partial list: [Kyle McDonald](http://kylemcdonald.net/), [Elliot Woods](http://www.kimchiandchips.com/), [Deborah Johnson](http://www.candystations.com/), [Matthew Ward](https://vimeo.com/superlumenary), [Jesse Garrison](http://takethefort.com/), [Matt Parker](http://madparker.com/), [Ali Tan Ucer](https://vimeo.com/alitan), [Dan Moore](http://makeitdoathing.com/), [Sean Kean](https://about.me/seankean), [Jamie Zigelbaum](http://www.jamiezigelbaum.com/) and others.

## Other resources, oddballs, optics, and more <a href="#e8aa" id="e8aa"></a>

### **Mist/Water Vapor/Fabric/Material:** <a href="#id-28ce" id="id-28ce"></a>

* [Fog Screen](http://www.fogscreen.com/)
* [Heliodisplay](https://en.wikipedia.org/wiki/Heliodisplay)
* [io2 Technology Mid Air Display](http://www.io2technology.com/)
* [Periscopista — interactive mist installation](https://www.youtube.com/watch?v=JvIRIUHJfp0)
* [Tsunami Water Screen](http://www.effectspecialist.com/Tsunami-Water-Screen.htm)
* [Silicon Rod Projection Surface](http://thecreatorsproject.vice.com/blog/ron-arad-curtain-call-5600-silicon-rods?utm_source=tcptwitterus)
* [Aquatique Vendor](http://www.aquatic-show.com/en/Water-projection-119.html) of Water Curtains
* [LCI Jet Screen](http://www.lci-uk.com/video/430/water-screens)
* [DIY Fog Screen](http://prosauce.org/blog/2012/6/10/how-to-diy-improved-inexpensive-fog-screen.html)
* [Projection on Half Silvered Mirror](https://www.youtube.com/watch?v=AEvrI6oMd10)
* [Colloid Bubble Film Display](https://www.youtube.com/watch?v=tvxJs_4m0ZE)
* [Fog screen with Head Tracking](http://www.olwal.com/projects/research/immaterial/diverdi_immaterial_3dtv_book_chapter_2008.pdf)
* [Interactive Fog Display with tracking](https://vimeo.com/121979573)
* [Holovect 3D Projection display](https://www.youtube.com/watch?v=BDYlTc3T27A)

### **Pepper’s Ghost:** <a href="#id-0be4" id="id-0be4"></a>

* [Glimm Displays Film Vendor](http://www.glimmdisplay.com/holographic-solutions/peppers-ghost-3d-hologram/)

### V**olumetric Image Displays:** <a href="#id-860c" id="id-860c"></a>

* [Volumetric/Computational Display Survey PDF](http://people.csail.mit.edu/pdidyk/papers/ComputationalDisplaysSurvey.pdf)
* [Wikipedia Entry](https://en.wikipedia.org/wiki/Volumetric_display)
* [Hackaday list](https://hackaday.com/2015/01/30/hacklet-32-led-persistence-of-vision-displays/) of POV displays
* [Long Exposure Photo Volume](https://vimeo.com/97840567)
* [Water and Oil Surfactant](https://vimeo.com/84654610)
* [voLumen](https://www.youtube.com/watch?v=Ey-eO-H2_Mk)
* [Hublot Sphere](https://www.youtube.com/watch?v=Mza_i-cxmxA)
* [Holovizio](http://www.holografika.com/)
* [Sony RayModeler](http://www.sparpointgroup.com/news/digital-visualization/a-new-take-on-3d-volumetric-display)
* [Volumetric Display based on Mylar Beam Splitter and LED Backlit LCD](http://www.siggraph.org/s2011/content/volumetric-display-based-vibrating-mylar-beam-splitter-and-led-backlit-lcd)
* [Patent on varifocal beamsplitter volumetric display](https://www.google.com/patents/US20140028663)
* [360 Light Field Display](http://gl.ict.usc.edu/Research/3DDisplay/)
* [Multiple projector and rotating screen display](http://opticalengineering.spiedigitallibrary.org/article.aspx?articleid=2091339)
* [Overview of other volumetric displays](http://www.photonics.com/Article.aspx?AID=50765)
* [Paper on progress in Volumetric Displays](http://greggandjenny.com/blog/wp-content/uploads/files/Favalora_publications/2009_OSA_FiO_Favalora_Volumetric.pdf)
* [Actuality Systems Overview](http://users.eecs.northwestern.edu/~ollie/various.html)
* [List of Publications from Gregg Favalora on Volumetric/Autostereoscopic displays](http://greggandjenny.com/blog/?page_id=20)

### **Layered Volumetric Displays:** <a href="#ccf9" id="ccf9"></a>

* [Lumarca](http://lumarca.info/)
* [Tensor Display](http://scitechdaily.com/tensor-display-uses-several-layers-of-lcds-to-produce-3-d-illusion/)
* [Layered LCD with Polarization Layers](http://alumni.media.mit.edu/~dlanman/research/polarization-fields/)
* [Layered Pepper’s Ghost example](https://vimeo.com/110670707)
* [Crayolascope](http://blairneal.com/portfolio_page/crayolascope/)
* [MIT Tensor Display](https://www.youtube.com/watch?t=45\&v=VJWJMh1PmR4)
* [Puredepth](http://www.puredepth.com/platformDemo.php?l=en)
* [DepthCube Info](http://electronicdesign.com/displays/desktop-displays-enter-new-dimension)
* [LightSpace Tech — Maker of DepthCube](http://www.lightspacetech.com/)

**Diffusion and Light Refraction techniques:**

* <https://yeseul.com/Glow-Box>
* <http://pleaseenjoy.com/projects/personal/abstractor/>
* <https://jasoneppink.com/pixelator/>
* <http://www.maryfranck.net/portfolio/diffuse-objects/>
* <https://www.lucyhardcastle.com/qualia/>
* <https://www.youtube.com/watch?v=R00IvqcI9jU&app=desktop>
* <https://www.sofiaaronov.com/refraction>

### **Volumetric Projection:** <a href="#id-879d" id="id-879d"></a>

* [Light Barrier by Kimchi and Chips](http://www.kimchiandchips.com/%23lightbarrier)
* [Birth of light by WOW](http://www.nobumichiasai.com/post/138919698977/birth-of-light-3d-laser-mist)
* [3 projector rabbit](https://www.youtube.com/watch?v=yzIeiyzRLCw\&index=104\&list=LLZKX9Kh24CrlnMJt-xpNw-Q)

### **Laser Projector:** <a href="#d832" id="d832"></a>

* [Kvant Lasers](https://www.kvantlasers.sk/categories)
* [United Laser](http://www.unitedlaser.net/id2.html)
* [Phaenon projector](http://laseranimation.com/en/products/phaenon-accurate)
* [X-Laser Projectors](http://x-laser.us/)
* [Guide to Laser Shows](http://www.laserist.org/guide-to-laser-shows.htm)
* [Nightsun Specialized Illuminators](http://www.spectrolab.com/searchlights/products/prod_sx16_ns_enh.html)

### **Lenticular/Light Field:** <a href="#ec05" id="ec05"></a>

* [Leia Inc. Light field Display](https://www.technologyreview.com/s/535376/new-display-technology-lets-lcds-produce-princess-leia-style-holograms/)
* [Nvidia Near-Eye Light Field Display](http://lightfield-forum.com/light-field-camera-prototypes/nvidia-near-eye-light-field-display/)
* [2007 Exhibition on Stereoscopic Displays](http://www.stereoscopic.org/2007/demo.html)
* [Parallax Barrier Display](http://displayblocks.org/diycompressivedisplays/parallax-barrier-display/)
* [Compressive Light Field Projector](http://web.media.mit.edu/~gordonw/CompressiveLightFieldProjector/)
* [Studio Roosegarde — Beyond Lenticular](https://www.studioroosegaarde.net/project/beyond/info/)
* [Multilens display for multiple views](https://www.youtube.com/watch?v=xLWf2P6d8cg)

### **Flexible Displays:** <a href="#c8e1" id="c8e1"></a>

* [Problems Facing Flexible Display Manufacturing](http://www.androidauthority.com/when-will-flexible-displays-arrive-688227/)
* [Flexible OLED overview site](http://www.oled-info.com/flexible-oled)
* [Holoflex Flexible 3D Display](https://techcrunch.com/2016/05/06/holoflex/)

### **Head Mounted Displays:** <a href="#id-0b8e" id="id-0b8e"></a>

* [Toshiba Head Mounted Display 2006](http://www.dailytech.com/Toshibas+Head+Mounted+Display/article4560.htm)

### **Mechanical/Physical Volumetric Displays:** <a href="#id-81ed" id="id-81ed"></a>

* [DIY Helical Display](https://thecriticaltechnologist.wordpress.com/audiovisual/)
* [Lumarca](http://lumarca.info/)
* [Perspecta Systems Wired Article](http://www.wired.com/2002/01/bubble-vision/)
* [Perspecta Systems Article](http://thefutureofthings.com/3029-the-return-of-the-3d-crystal-ball/)
* [3D printed Helix Display](http://www.solidsmack.com/3d-cad-technology/open-source-volumetric-display-pushes-what-is-possible-with-3d-visualization/)

### **E-Ink Displays** <a href="#d06f" id="d06f"></a>

* [32" Electronic paper development kit](https://www.visionect.com/blog/32-inch-eink-development-kit-by-visionect)
* [Notes on E-Ink Refresh Rate](http://www.e-ink-info.com/tags/refresh-rate)
* [Dasung 13.3" E-Ink/Paperlike Display for $1300](http://www.solcomputer.com/sol-cvs-e-ink-monitor.html)

### **Haptic Displays:** <a href="#id-7c3b" id="id-7c3b"></a>

* [MIT inForm](https://www.youtube.com/watch?v=ouP9xNujkNo)
* [Ultrasound Haptic Display](https://www.youtube.com/watch?v=kaoO5cY1aHk)

### **Transparent LCD References:** <a href="#id-5eb2" id="id-5eb2"></a>

* [Custom Display Manufacturer based in Korea](http://www.displayandlife.com/)
* [Transparent OLED 2.0" Panel Vendor](http://www.4dsystems.com.au/product/uTOLED_20_G2/)
* [Iris by Hybe](https://www.youtube.com/watch?v=qhdG7OltXnU)
* [Potential Vendor: Crystal Display Systems](http://crystal-display.com/)
* [Hypebox Transparent LCD product](http://hypebox.io/transparent-lcd-screen-showcase/)
* [Transparent LCD Bus to Mars Lockheed Martin Project](https://www.youtube.com/watch?v=ssk5mn19cpM)
* [Evoluce for Transparent LCD and OLED](http://www.evoluce.com/)
* [CDS Transparent Faq](http://crystal-display.com/cds-have-launched-a-brand-new-and-revised-transparent-faqs-document/)
* [Planar Transparent OLED](http://www.planar.com/products/transparent-displays/)
* [Stimulant writeup on Planar Transparent OLED](https://stimulant.com/state-of-the-art-transparent-oled-displays/)
* [Pro Display Vendor](http://prodisplay.com/products/transparent-lcd-screen/)
* [DIY Screen Removal](http://displayblocks.org/fundamental-building-blocks/ripping-that-lcd-out-of-your-monitor-without-breaking-it/)
* [HybeBox pre-built transparent LCD display box](http://www.mmt.io/transparent-lcd-touchscreen-display-hypebox/)
* [“Transparent” LED Wall (spaced out slats)](https://vimeo.com/143733724)
* [Hypersonic — Patterned by Nature](http://www.hypersonic.cc/%23!/projects/patterned-by-nature)

### **LCD with Modified Polarizing layers:** <a href="#d7b0" id="d7b0"></a>

* [Polarizing Filter Source — API Optics](http://www.apioptics.com/)
* [Polarized Light Explanation Video](https://www.youtube.com/watch?v=PJHCADY-Bio)
* [Brewster’s angle](https://en.wikipedia.org/wiki/Brewster%27s_angle)
* [Lynx Modified Polarizer Advertisement](https://www.youtube.com/watch?v=cDwyia2MM5o)
* [Flavien Théry](https://vimeo.com/76204664)
* [Flavien Théry Artist Page](http://flavienthery.free.fr/indexhibit/index.php?/projects/-emla-porteem/)
* [Simulacra by Smigla Bobinski](http://www.smigla-bobinski.com/english/works/SIMULACRA/index.html)
* [Ryo Kishi](https://vimeo.com/159780770)
* [Dual Polarizer Layers](https://vimeo.com/180998035)

### **Physical Mechanical References:** <a href="#a784" id="a784"></a>

* [Random international Light Points](http://random-international.com/work/study-for-fifteen-points-i/)
* [Sand Drawing with Magnets — Sisyphus](http://www.taomc.com/sisyphus)
* [Studio Roosegarde — Flow — Fan Display](https://vimeo.com/73284396)

### **Miscellaneous/Unusual/Light Art:** <a href="#id-1db9" id="id-1db9"></a>

* [Large Lenticular Print](https://www.wired.com/2016/09/worlds-biggest-lenticular-print-will-make-go-whoa/)
* [Another Great survey of various display tech](http://csis.pace.edu/~marchese/CG/Lect2/Lecture_2a.html)
* [Microlens Array Example](https://www.youtube.com/watch?v=uwCwtBxZM7g)
* [Paramagnetic/Electroluminescent Paint](http://www.litcoat.com/paramagnetic-paint)
* [3D Printed Optics Lightguide](https://www.disneyresearch.com/wp-content/uploads/printedoptics-paper.pdf)
* [ClaytricSurface Haptic Deformable Screen](https://www.computer.org/csdl/mags/cg/preprint/06785929.pdf)
* [Spatial Light Modulator Wiki](https://en.wikipedia.org/wiki/Spatial_light_modulator)
* [Fiber Scanned Displays](https://depts.washington.edu/hplab/research/scanning-displays/)
* [Edge Lit displays](http://www.media.mit.edu/spi/Edgelit/edgelit.html)
* [Oddball Television History Links](http://blog.fyitelevision.com/2015/03/tv-technology-history-involved-some.html%23sthash.tvzKNR1I.ltPb0tHj.dpbs)
* [Measuring luminance of a surface](http://www.bnoack.com/index.html?http&&\&www.bnoack.com/light/illuminance.html)
* [Dynaflash High Speed Projector](https://www.youtube.com/watch?v=L8kjdObjZpY)
* [Quantum Dots](http://www.nature.com/news/the-nanolight-revolution-is-coming-1.19482?WT.ec_id=NEWS-20160303)
* [Liquavista e-ink](http://goodereader.com/blog/tablet-slates/liquavista-talks-samsung-partnership-and-the-future-of-its-electrowetting-technology)
* [Color e-Ink Info: Interferometric Modulator Display](http://en.wikipedia.org/wiki/Interferometric_modulator_display)
* [Qualcomm’s Mirasol Color e-Ink technology](https://www.qualcomm.com/products/mirasol)
* [Good Resource for Hacking CRT’s](http://crackedraytube.com/textstutorials.html)
* [Printed Optics](http://superb150.blogspot.com/2012/10/printed-optics-revolution-of-3d.html)
* [Cinema Snow Globes](http://cinemasnowglobes.com/faq)
* [Encoded Mirrors by Florian Born](https://vimeo.com/140553824)
* [Vibrating projection lens and lenticular combination](http://users.eecs.northwestern.edu/~ollie/various.html)
* [Solace by Nicky Assmann](http://www.nickyassmann.net/work/solace)
* [360 Video Rigs](http://thefulldomeblog.com/2015/11/17/collection-of-360-video-rigs/)
* [Project FEELEX Haptic Research](http://dl.acm.org/citation.cfm?id=383314)
* [RePro3D Parallax Display](https://www.youtube.com/watch?v=T-0OrMtlROY)
* [Cylindrical Lightfield Display](https://www.youtube.com/watch?v=ys1yJMouGGQ)
* [HaptoMirage](https://www.youtube.com/watch?v=XqT5pZsSGg4)
