Titanium Doped Sapphire

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Titanium Doped Sapphire (Ti³⁺:Al₂O₃)

Titanium doped sapphire (Ti³⁺:Al₂O₃) combines the excellent thermal, physical and optical properties of Sapphire, Ti³⁺ ion’s very large gain bandwidth, and a wide range of possible pump wavelengths. These properties make Titanium doped sapphire the most widely used crystal for wavelength tunable lasers and ultrashort pulse generation.

The Ti³⁺ ion has a very large gain bandwidth with a gain peak around 800nm. This characteristic allows a tuning range from 650nm to 1100nm and ultrashort pulse generation down to around 10fs through passive mode locking. A pulse duration around 100fs is easily achieved and the device is commercially available.

The Ti3+ has a wide absorption range located in the green spectral region. A Ti:sapphire laser is usually pumped with another laser with a wavelength of 514 to 532 nm. For most applications, an argon-ion lasers (514.5 nm), or a frequency-doubled Nd:YAG, Nd:YLF or Nd:YVO₄ laser (527-532 nm) is used.

	Crystal Structure		Hexagonal
	lattice constant (Å)		a = 4.748, c = 12.957
	Melting Point (°C)		2050
	Mohs Hardness		≈ 9
	Density (g/cm^3)		3.98
	Pumping Range (nm)		450~532
	Lasing Range (nm)		650~1100
	Fluorescence Lifetime (us at 25°C)		3.2
	Ti dopant concentration (%)		0.06~0.5
	Absorption Coefficient (cm^-1 at 490nm)		1.0~7.5
	Polarized Emission		Unpolarized
	Linear Coefficient of Thermal Expansion (20~100°C) ( /K)		\|\|C: 5.31X10^-6 ⊥C: 4.78X10^-6
	Thermal Conductivity (25°C) (W/mK)		\|\|C: 33 ⊥C: 35
	Constant of Dispersion (dn/dT) (/K)		dno/dT = 8.5X10^-6 dne/dT = 3.0X10^-6
	Refractive Indices		ne = 1.759, no = 1.767 at 808nm
	Table 1: Ti³⁺:Al₂O₃ Properties