Scratch off Holography
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Scrach Holography is widely used to corver Pin codes for the banking , mobile cards, discount coupons, password, etc on mobile card, member shipment card, lottery, ticket, bank documemt, etc, for high security purposes. The Holography image improves security ability of scratch coating greatly instead of normal scratch coating which is used for mobile cash cards or gift coupons usually.
We produce both hot stamping foil scratch Holography and scratch Holography sticker(label). We can make customized design Scratch Off Holography with your company name, logo as well as general design Holography scratch. The design of Holography are available as standard or to be a special custom Holography unique to customer. Please visit Holography Artwork Design.
The PIN code. is corvered by Hologram image. After your scratch the Holography coating by nail or coin, you will see PIN code on card, such as prepaid scratch mobile charge card or ticket. Our scratch Holography can be scratched cleanly and easily.
A. Holography label Scratch-Off can be applied onto card manully or automaticly by application machine.
B. Holographic hot stamping foil Scratch-Off can be applied onto card by hot stamping machine.
Dynamic holography
Non-optical applications
In principle, it is possible to make a hologram for any wave.
Electron holography is the application of holography techniques to electron waves rather than light waves. Electron holography was invented by Dennis Gabor to improve the resolution and avoid the aberrations of the transmission electron microscope. Today it is commonly used to study electric and magnetic fields in thin films, as magnetic and electric fields can shift the phase of the interfering wave passing through the sample.The principle of electron holography can also be applied to interference lithography.
Acoustic holography is a method used to estimate the sound field near a source by measuring acoustic parameters away from the source via an array of pressure and/or particle velocity transducers. Measuring techniques included within acoustic holography are becoming increasingly popular in various fields, most notably those of transportation, vehicle and aircraft design, and NVH. The general idea of acoustic holography has led to different versions such as near-field acoustic holography (NAH) and statistically optimal near-field acoustic holography (SONAH). For audio rendition, the wave field synthesis is the most related procedure.
Atomic holography has evolved out of the development of the basic elements of atom optics. With the Fresnel diffraction lens and atomic mirrors atomic holography follows a natural step in the development of the physics (and applications) of atomic beams. Recent developments including atomic mirrors and especially ridged mirrors have provided the tools necessary for the creation of atomic holograms,[18] although such holograms have not yet been commercialized.
Non-optical applications
In principle, it is possible to make a hologram for any wave.
Electron holography is the application of holography techniques to electron waves rather than light waves. Electron holography was invented by Dennis Gabor to improve the resolution and avoid the aberrations of the transmission electron microscope. Today it is commonly used to study electric and magnetic fields in thin films, as magnetic and electric fields can shift the phase of the interfering wave passing through the sample.The principle of electron holography can also be applied to interference lithography.
Acoustic holography is a method used to estimate the sound field near a source by measuring acoustic parameters away from the source via an array of pressure and/or particle velocity transducers. Measuring techniques included within acoustic holography are becoming increasingly popular in various fields, most notably those of transportation, vehicle and aircraft design, and NVH. The general idea of acoustic holography has led to different versions such as near-field acoustic holography (NAH) and statistically optimal near-field acoustic holography (SONAH). For audio rendition, the wave field synthesis is the most related procedure.
Atomic holography has evolved out of the development of the basic elements of atom optics. With the Fresnel diffraction lens and atomic mirrors atomic holography follows a natural step in the development of the physics (and applications) of atomic beams. Recent developments including atomic mirrors and especially ridged mirrors have provided the tools necessary for the creation of atomic holograms,although such holograms have not yet been commercialized.
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