Technical Details of SCHOTT® Solar Glass

Developed for space, SCHOTT® Solar Glass offers a wide range of technical advantages. It ensures long-term stability, optical performance and reliable protection, supporting photovoltaic systems throughout their entire mission or service life.

Designed to endure space – and beyond

Protection against radiation

Solar and ultraviolet radiation, as well as charged particles, can gradually degrade photovoltaic materials. SCHOTT® Solar Glass provides reliable shielding and long-term material stability, preserving optical and electrical performance under demanding environmental conditions.

Solarization stability

Prolonged exposure to charged particles and UV radiation can cause glass darkening over time. SCHOTT® Solar Glass is engineered to resist solarization and discoloration, maintaining optical clarity and stable transmission for consistent efficiency throughout its lifetime.

High light transmittance

SCHOTT® Solar Glass combines excellent transmittance from UV-A to near-infrared with long-term spectral stability. It ensures that solar and optical systems capture maximum usable light, supporting dependable energy generation and optical precision.

High surface quality

The uniform, fire-polished surface of SCHOTT® Solar Glass minimizes surface roughness while supporting high-precision bonding and coating processes.

Material Properties SCHOTT® Solar Glass 0787

Material Properties SCHOTT® Solar Glass sphere

Material Properties SCHOTT® Solar Glass exos

Products

Geometrical properties	Unit	Value
Thickness*	mm	0.150 \| 0.125 \| 0.100 \| 0.075

* Other thicknesses on request

Optical properties	Unit	Value
Refractive index n_d		1.5080
Edge wavelength λ_c (τ = 46 %) at t = 0.100 mm	nm	332

Thermal properties	Unit	Value
Transformation temperature T_g	°C	568
Coefficient of thermal expansion - CTE α_{(20; 300 °C)}	10^-6 K^-1	8.5

Mechanical properties	Unit	Value
Density ρ	g/cm³	2.51
Young's modulus E	kN/mm²	70.0
Poisson's ratio µ		0.216

Spectral transmittance of SCHOTT® Solar Glass 0787

Geometrical properties	Unit	Value
Thickness*	mm	0.150 \| 0.100 \| 0.070 \| 0.030

* Other thicknesses on request

Optical properties	Unit	Value
Refractive index n_d		1.5231
Edge wavelength λ_c (τ = 46 %) at t = 0.100 mm	nm	308

Thermal properties	Unit	Value
Transformation temperature T_g	°C	557
Coefficient of thermal expansion – CTE α_{(20; 300 °C)}	10^-6 K^-1	7.2

Mechanical properties	Unit	Value
Density ρ	g/cm³	2.51
Young's modulus E	kN/mm²	72.9
Poisson's ratio µ		0.21

Spectral transmittance of SCHOTT® Solar Glass sphere

SCHOTT® Solar Glass sphere-Graphic-Transmittance-250-2000nm

SCHOTT® Solar Glass sphere-Graphic-Transmittance-250-500nn.png

Geometrical properties	Unit	Value
Thickness*	mm	0.150 \| 0.100 \| 0.050

* Other thicknesses on request

Optical properties	Unit	Value
Refractive index n_d		1.5145
Edge wavelength λ_c (τ = 46 %) at t = 0.100 mm	nm	344

Thermal properties	Unit	Value
Transformation temperature T_g	°C	557
Coefficient of thermal expansion – CTE α_{(20; 300 °C)}	in 10 K^-1	6.9

Mechanical properties	Unit	Value
Density ρ	g/cm³	2.54
Young's modulus E	kN/mm²	74.5
Poisson's ratio µ		0.218

Spectral transmittance of SCHOTT® Solar Glass exos

SCHOTT® Solar Glass exos-Graphic-Transmittance 200-2000 nm-ENG

SCHOTT® Solar Glass exos-Graphic-Transmittance 200-500 nm-ENG

SCHOTT® Solar Glass is available as:

Sheets
Cut-to-size substrates
AR-coated substrates

To find out more, please see the related products on the overview page.

Want to know more? Let’s talk

Whether you need more information, samples, a quote, or advice for a project, we would be delighted to talk to you.

Man in glasses in business office on phone while working on laptop_605x350.jpg

Technical Details of SCHOTT® Solar Glass

Designed to endure space – and beyond

Protection against radiation

Solarization stability

High light transmittance

High surface quality

Want to know more? Let’s talk

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