Free carrier induced substrate heating of the epitaxially grown GaMnAs

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Free carrier induced substrate Free carrier induced substrate heating of the epitaxially grown heating of the epitaxially grown GaMnAsGaMnAs

Institute of Physics AS CR, Prague

Vit Novak, Kamil Olejnik, Miroslav Cukr

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GaMnAsGaMnAs

• Problem: limited Mn solubility

growth at T=220°C growth at T=230°C

7%Mn, 50 nm 7%Mn, 50 nm

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Measuring the (low) temperatureMeasuring the (low) temperature

• thermocouple x poor coupling

• optical pyrometry x weak radiation

x substrate transparent

• Band-gap spectroscopy

Shanabrook et al. (1992), Johnson et al. (1993),

Thompson et al. (1997)

commercially by kSA (BandiT)

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Band-gap spectroscopyBand-gap spectroscopy

spectrometer

substrate heater

160°C sufficient!

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GrowthGrowth

• minimum change in Ts measured by Tc

constant heater power

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GrowthGrowth

• minimum change in Ts measured by Tc

• large change in Ts measured by BES !

constant heater power

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Absorption spectrumAbsorption spectrum

substrate

+ GaMnAs

band-gap region

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really change of Ts !

substrate

+ 40°C

+ GaMnAs

band-gap region

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really change of Ts !

substrate

+ 40°C

+ GaMnAs

band-gap region NIR

phononsfree carriers

substrate

+ GaMnAs

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Model I.Model I.

naively:

solution:

But ! • obscured parameters

• inconsistencies with experiment

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Radiation heat exchangeRadiation heat exchange

Qout-2Qout-1

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Qout-2Qout-1

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phononsinterband

• substrate/epilayer absorptance s()

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phononsinterband

free holes

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phononsinterband

free holesabso

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phononsinterband

free holes

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phononsinterband

• radiation sources

free holes

~250°C

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phononsinterband

~900°C

free holes

~250°C

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phononsinterband

free holes

backgroundabso

~250°C

~900°C

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phononsinterband

• substrate radiation

free holes

background

substrate

~250°C

~900°C

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Model II.Model II.

better:

heater ( 200°C )

cells ( ~ 900°C )

background ( > 77K, < 200°C )

i : >~

s(, t) :t

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ResultsResults

before growth: long after growth:

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ResultsResults

before growth: long after growth:

time evolution: Th = 320°C

Tc = 950°C

Tb = 40°C

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Implications for Implications for T T reductionreduction• TBES-locked substrate heater power

(problem: heat capacity of heater)

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• sample holder (or sample!) with initially strong IR absorption

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on Mo-block

w/ sublayer

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Bonus: record Curie temperatureBonus: record Curie temperature

also: Nottingham group

Thank you !Thank you !

Free carrier induced substrate heating of the epitaxially grown GaMnAs

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