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Page 2 - Protected Silver Metallic Mirrors

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: UV Fused Silica
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/10
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/10
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/10
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/10
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/10
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/10
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/10
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/6
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/6
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/6
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/6
Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications

Reflective Coating: Protected Aluminum, Protected Silver
Substrate: BK7
Average Reflectance: 95 %
Wavelength Range: 500-1000nm
Surface Flatness: lambda/6