SummaryInvestors systematically deviate from rationality when making financial decisions, yet the mechanisms responsible for these deviations have not been identified. Using event-related fMRI, we examined whether anticipatory neural activity would predict optimal and suboptimal choices in a financial decision-making task. We characterized two types of deviations from the optimal investment strategy of a rational risk-neutral agent as risk-seeking mistakes and risk-aversion mistakes. Nucleus accumbens activation preceded risky choices as well as risk-seeking mistakes, while anterior insula activation preceded riskless choices as well as risk-aversion mistakes. These findings suggest that distinct neural circuits linked to anticipatory affec...
Understanding the neurocognitive basis of risk-taking behavior is an important issue, especially in ...
Choices between smaller certain reward and larger riskier reward are referred to as risky decision m...
This thesis investigates the neural basis of risk-taking in humans across different incentive domain...
SummaryInvestors systematically deviate from rationality when making financial decisions, yet the me...
Investors systematically deviate from rationality when making financial decisions, yet the mechanism...
To explain investing decisions, financial theorists invoke two opposing metrics: expected reward and...
Recent research in neuroeconomics suggests that the same brain areas that generate emotional states ...
In functional magnetic resonance imaging (FMRI) research, nucleus accumbens (NAcc) activation sponta...
Many decisions people make can be described as decisions under risk. Understanding the mechanisms th...
Decision making under risk is central to human behavior. Economic decision theory suggests that valu...
Organisms continuously monitor the stimuli they encounter and the outcome of their actions. To survi...
Following with concrete research results, we will mention the conclusions of other influential neuro...
People differ greatly in their financial risk taking behaviour. This heterogeneity has been associat...
SummaryAdaptive decision making in real-world contexts often relies on strategic simplifications of ...
When making decisions, people show different attitudes in risk-taking. Classically, individual diffe...
Understanding the neurocognitive basis of risk-taking behavior is an important issue, especially in ...
Choices between smaller certain reward and larger riskier reward are referred to as risky decision m...
This thesis investigates the neural basis of risk-taking in humans across different incentive domain...
SummaryInvestors systematically deviate from rationality when making financial decisions, yet the me...
Investors systematically deviate from rationality when making financial decisions, yet the mechanism...
To explain investing decisions, financial theorists invoke two opposing metrics: expected reward and...
Recent research in neuroeconomics suggests that the same brain areas that generate emotional states ...
In functional magnetic resonance imaging (FMRI) research, nucleus accumbens (NAcc) activation sponta...
Many decisions people make can be described as decisions under risk. Understanding the mechanisms th...
Decision making under risk is central to human behavior. Economic decision theory suggests that valu...
Organisms continuously monitor the stimuli they encounter and the outcome of their actions. To survi...
Following with concrete research results, we will mention the conclusions of other influential neuro...
People differ greatly in their financial risk taking behaviour. This heterogeneity has been associat...
SummaryAdaptive decision making in real-world contexts often relies on strategic simplifications of ...
When making decisions, people show different attitudes in risk-taking. Classically, individual diffe...
Understanding the neurocognitive basis of risk-taking behavior is an important issue, especially in ...
Choices between smaller certain reward and larger riskier reward are referred to as risky decision m...
This thesis investigates the neural basis of risk-taking in humans across different incentive domain...